CN110989171A

CN110989171A - Intelligent glasses

Info

Publication number: CN110989171A
Application number: CN201911342171.1A
Authority: CN
Inventors: 李海岗
Original assignee: Qingdao Xiaoniao Kankan Technology Co Ltd
Current assignee: Qingdao Xiaoniao Kankan Technology Co Ltd
Priority date: 2019-12-23
Filing date: 2019-12-23
Publication date: 2020-04-10

Abstract

The invention discloses intelligent glasses. The smart glasses include: a mirror frame; the glasses legs are movably connected with the glasses frame; at least one glasses leg is provided with an accommodating groove, and a first magnetic part is arranged in the accommodating groove; the power supply module is provided with a second magnetic piece; the power supply module is adsorbed in the accommodating groove through the first magnetic piece and the second magnetic piece; and the power supply module is electrically connected with the control module. The invention provides intelligent glasses, wherein a power supply module in the intelligent glasses is fixed on a glasses leg in a magnetic adsorption mode, a user can freely detach and replace the power supply module in time, and the power supply endurance of the intelligent glasses is improved.

Description

Intelligent glasses

Technical Field

The invention relates to the technical field of intelligent wearing, in particular to intelligent glasses.

Background

With the gradually powerful function of the smart glasses, the power consumption of the smart glasses is also larger, so that the smart glasses need longer endurance.

In order to solve the problem in the prior art, the size and the capacity of the storage battery built in the smart glasses are generally increased, or the number of blocks of the storage battery in the smart glasses is increased, so that the weight of the smart glasses is increased invisibly.

In order to solve any technical problem, the invention provides novel intelligent glasses.

Disclosure of Invention

It is an object of the present invention to provide smart glasses.

According to a first aspect of the invention, smart eyewear is provided. The smart glasses include:

a mirror frame;

the glasses legs are movably connected with the glasses frame; at least one glasses leg is provided with an accommodating groove, and a first magnetic part is arranged in the accommodating groove;

the power supply module is provided with a second magnetic piece; the power supply module is adsorbed in the accommodating groove through the first magnetic piece and the second magnetic piece;

and the power supply module is electrically connected with the control module.

Optionally, the temple is hinged to the frame via a hinge.

Optionally, the two power supply modules are respectively attached to the two temples, and the two power supply modules are respectively electrically connected with the control module through first connecting wires to form two electrical loops.

Optionally, the smart glasses further comprise elastic bands, and the elastic bands are fixedly connected with the glasses legs.

Optionally, the elastic strap embeds a second connecting line; the power supply module is respectively adsorbed on the two glasses legs;

two ends of the second connecting wire are respectively electrically connected with the two power supply modules;

one of the power supply modules is electrically connected with the control module through the first connecting line;

and the two power supply modules and the control module form an electric loop.

Optionally, the surface of the power supply module protrudes out of the accommodating groove.

Optionally, the temple comprises a first shell, and a second shell mated with the first shell;

the first connecting line is arranged between the first shell and the second shell;

the first connecting line is electrically connected with the power supply module through a connector.

Optionally, the shape of the power supply module is a circular, square or special-shaped structure; the shape of holding tank and the shape of power module match each other.

Optionally, the second magnetic part is a magnetic column, the accommodating groove is internally clamped in a blind hole corresponding to the magnetic column, and the blind hole is internally provided with the first magnetic part with opposite polarity to the magnetic column.

Optionally, the first magnetic member is a magnet, and the second magnetic member is a magnet with polarity opposite to that of the magnet, or an iron sheet or an alloy sheet adsorbed by the magnet.

Optionally, a display module and an optical module electrically connected to the display module are disposed on the frame; the control module is configured to control the display module and the optical module.

The invention has the beneficial effects that: the invention provides intelligent glasses. The power module of intelligence glasses passes through the magnetic adsorption mode to be fixed on the mirror leg, can freely dismantle and in time change the power module, has promoted the power duration of intelligence glasses.

Other features of the present invention and advantages thereof will become apparent from the following detailed description of exemplary embodiments thereof, which proceeds with reference to the accompanying drawings.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description, serve to explain the principles of the invention.

Fig. 1 is a schematic structural diagram of smart glasses according to a first embodiment of the present invention.

Fig. 2 is an exploded view of the structure of the smart glasses according to the first embodiment of the present invention.

Fig. 3 is an enlarged view of the receiving groove of fig. 2.

Fig. 4 is a schematic structural diagram of smart glasses according to a second embodiment of the present invention.

Fig. 5 is an exploded view showing the structure of smart glasses according to a second embodiment of the present invention.

Fig. 6 is an enlarged view of the power supply module shown in fig. 5.

Fig. 7 is a schematic structural diagram of smart glasses according to a third embodiment of the present invention.

Fig. 8 is a schematic structural diagram of smart glasses according to a third embodiment of the present invention.

Detailed Description

Various exemplary embodiments of the present invention will now be described in detail with reference to the accompanying drawings. It should be noted that: the relative arrangement of the components and steps, the numerical expressions and numerical values set forth in these embodiments do not limit the scope of the present invention unless specifically stated otherwise.

The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the invention, its application, or uses.

Techniques, methods, and apparatus known to those of ordinary skill in the relevant art may not be discussed in detail but are intended to be part of the specification where appropriate.

In all examples shown and discussed herein, any particular value should be construed as merely illustrative, and not limiting. Thus, other examples of the exemplary embodiments may have different values.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, further discussion thereof is not required in subsequent figures.

According to one embodiment of the invention, smart eyewear is provided. The smart glasses include:

a frame 101;

the glasses legs 102 are movably connected with the glasses frame 101; at least one of the glasses legs 102 is provided with an accommodating groove 1021, and a first magnetic part is arranged in the accommodating groove 1021;

the power supply module 103 is provided with a second magnetic piece on the power supply module 103; the power supply module 103 is attracted in the accommodating groove 1021 through the first magnetic piece and the second magnetic piece;

and the power supply module 103 is electrically connected with the control module 105.

The smart glasses of this example can be AR augmented reality AR glasses, virtual reality VR devices, or a mixed reality MR device combining the two, etc.

The glasses legs of the intelligent glasses of the present example are provided with accommodating grooves, for example, the accommodating grooves can be provided at the end close to the ears of a person. The power supply module 103 is absorbed in the accommodating groove through a magnetic piece; compared with the fixing modes such as bonding and buckling in the prior art, the power supply module is fixed in a magnetic suction mode, the power supply module can be freely disassembled and assembled in the magnetic suction mode, the adsorption capacity of the power supply module and the power supply module cannot be influenced due to too many times of disassembly, and the cruising ability of the intelligent glasses is improved.

The power module of this example is electrically connected to a control module, the control module including circuit boards, electronic components, and the like, the control module configured to control the implementation of various functions in the smart eyewear.

Optionally, the temple is hinged to the frame via a hinge. For example, two ends of the glasses frame are provided with rotating shafts, and the two glasses legs are respectively connected with the rotating shafts in a rotating mode, so that the glasses legs 102 can be bent relative to the glasses frame 101, and a user can conveniently carry and store the intelligent glasses.

In an alternative embodiment, as shown in fig. 1-2, a power module 103 is provided at an end of one temple 102 remote from the frame 101. For example, the temple 102 is formed with a hanging ear, and a power supply module is disposed near the hanging ear. The inventor finds that when the power supply module 103 is arranged at the position, on one hand, a user can conveniently adjust the intelligent glasses in the wearing process, and interference with the user in adjusting the intelligent glasses due to the fact that the power supply module is arranged on the glasses legs is avoided; on the other hand can increase the quality of mirror leg, the weight of balanced whole intelligent glasses.

As shown in fig. 2, the smart glasses include a frame 101 and two temples 102 movably connected to the smart glasses. The accommodating groove 1021 is formed in one of the temples, and the power supply module 103 is fixed in the accommodating groove 1021 in an adsorption mode.

In this example, a first connecting wire 104 is arranged in one temple needing to be attached with a power supply module, wherein one end of the first connecting wire 104 is electrically connected with a control module 105; the other end of the first connection line 104 is electrically connected to the power supply module 103, so that the power supply module 103 and the control module 105 form a complete electrical loop to provide power for the control module 105.

For example, a first magnetic member is disposed inside the accommodating groove 1021 of the temple 102, and the power supply module 103 includes a second magnetic member besides the electric storage cell, wherein the temple 102 and the power supply module 103 are separated from each other by magnetism to achieve an adsorption effect; for example, when the power module 103 gradually approaches the temple 102, the first magnetic member and the second magnetic member can be attracted to each other by the magnetic principle, so that the power module 103 is fixed in the accommodating groove 1021. Simultaneously because holding tank 1021 is groove structure, power module 103 adsorbs in holding tank 1021, holding tank 1021 makes power module 103 more reliable with being connected of mirror leg 102, and the user is difficult for droing wearing the in-process.

Optionally, the temple 102 includes a first casing 102a and a second casing 102b matched with the first casing 102a, for example, the first casing 102a and the second casing 102b are connected in a snap-fit manner. The first connecting line 104 is internally arranged in the temple; one end of the first connection line 104 is directly connected with the control module 105, the other end of the first connection line 104 is provided with a connector, and the power supply module 103 is electrically connected with the first connection line 104 through the connector. For example, an interface is arranged on the power supply module, and the interface is electrically connected with the connector. When the user need change the power module, the power module is taken off to connector and interface disconnection to another power module is installed, when installing another power module, with the interface on the power module with the connector aim at being connected in order to realize the power supply to intelligent glasses. For example, the connectors may be spring tabs, contacts, etc.

In an alternative embodiment, as shown in fig. 4 to 5, a first connection line 104a and a first connection line 104b are respectively embedded in the two temples 102. In this example, the two temples 102 are respectively attached with the power supply module 103a and the power supply module 103b, and the two power supply modules are respectively electrically connected with the control module 105 through first connecting wires to form two electrical circuits. Two the power module can give respectively the power supply of intelligent glasses.

For example, the smart glasses include a frame 101 and two temples 102 movably connected to the frame 101.

The left temple is internally provided with a first connecting wire 104a, one end of the first connecting wire 104a is electrically connected with the control module 105, the other end of the first connecting wire 104a is electrically connected with the power supply module 103a adsorbed on the left temple, and the power supply module 103a and the control module 105 form a complete electric loop. For example, the power supply module 103a and the control module 105 form a power supply path, so that power can be supplied to the circuit board on the control module and the electronic components on the circuit board, and the display module and the optical module arranged on the frame are combined to jointly realize the functions of the smart glasses. For example, functions such as intelligent glasses voice control, gesture recognition and eye movement tracking can be realized.

The right side is internally provided with a first connecting wire 104b, one end of the first connecting wire 104b is electrically connected with the control module 105, the other end of the first connecting wire 104b is electrically connected with a power supply module 103b adsorbed on the left side, and the power supply module 103b and the control module 105 form a complete electric loop. The power supply module 103b may supply power to the smart glasses. For example, the power supply module 103b and the control module 105 form a power supply path, so that power can be supplied to the circuit board on the control module and the electronic components on the circuit board, and the display module and the optical module arranged on the frame are combined to jointly realize the functions of the smart glasses. For example, functions such as intelligent glasses voice control, gesture recognition and eye movement tracking can be realized.

In this example, the power supply module 103a and the power supply module 103b form a complete electrical loop with the control module 105, wherein the two electrical loops are connected in parallel to realize dual power supply to the control module 105 (i.e., two independent complete electrical loops are formed between the two electrical loops). This example has prolonged the live time of intelligent glasses through double-circuit power supply, has improved power supply efficiency.

For example, the power supply module 103 may be attached to only one of the temples, and the power supply module may not be attached to the other temple, thereby realizing one-way power supply. In this example, a complete electrical loop is formed between the power supply module and the control module 105, so that a single power supply to the control module 105 can be realized.

Therefore, in this example, different power supply modes can be selected according to actual conditions, for example, different power supply modes can be selected according to the time for using the intelligent glasses outdoors, and when the time for a user to use the intelligent glasses outdoors is short, the power supply module can be adsorbed on one glasses leg only, so that one-way power supply is realized; when the user uses the intelligent glasses for a long time outdoors, the power supply modules can be simultaneously adsorbed on the two glasses legs to realize double-path power supply so as to improve the endurance time of the intelligent glasses; and can improve the power supply efficiency to control module when adsorbing the power module simultaneously.

In an optional embodiment, the smart glasses further comprise an elastic strap. As shown in fig. 7, the elastic band 109 is fixedly attached to the temple 102. For example, the elastic band 109 is configured to encircle the back brain of the user. This example has improved and has worn the comfort level and wear the reliability, prevents that the user from wearing in-process intelligent glasses and droing.

Optionally, a second connecting line 110 is built in the elastic band 109; the power supply module 103a and the power supply module 103b are respectively adsorbed on the two temples;

as shown in fig. 8, the smart glasses include a frame 101, and two temples 102 movably connected to the frame 101, wherein the two temples 102 respectively adsorb the power supply module.

Wherein the power module 103a attached to the left temple is electrically connected to the control module 105 through the first connecting wire 104. Both ends of the second connection line 110 are electrically connected to the power supply module 103a and the power supply module 103b, respectively. The power supply module 103b, the second connection line 110, the power supply module 103a, the first connection line 104 and the control module 105 form a complete electric loop, so that one-way power supply to the control module 105 is realized. Through two power supply module of establishing ties, improved the whole electric capacity of power supply module in this example, prolonged the time of endurance of intelligent glasses.

For example, connectors are respectively disposed at two ends of the second connection line 110, and the power supply module 103a and the power supply module 103b are electrically connected to the second connection line 110 through the connectors respectively. For example, an interface is arranged on the power supply module, and the interface is electrically connected with the connector. The connector may be a spring, a contact, or the like.

In one example, a surface of the power module 103 protrudes out of the receiving groove 1021. For example, the width of the receiving groove 1021 in the direction perpendicular to the extending direction of the temple is smaller than the width of the power module 103. In this example, the power supply module 103 is convenient for the user to detach.

In one example, reference is made to fig. 3 and 6, wherein fig. 3 illustrates an enlarged view of the receiving groove of fig. 2. Fig. 6 is an enlarged view of the power supply module shown in fig. 5.

As shown in fig. 6, a boss is disposed on one surface of the power supply module 103b, wherein the boss is in a cavity structure, and the second magnetic member is disposed in the cavity structure. Wherein the second magnetic part is a magnetic column B.

As shown in fig. 3, a small groove is formed in the accommodating groove 1021 on the temple, wherein the structure of the small groove is matched with the boss structure, a blind hole a corresponding to the magnetic column B is formed in the small groove, and a first magnetic member with a polarity opposite to that of the magnetic column B is arranged in the blind hole a. For example, the first magnetic member is a magnetic substance having a polarity opposite to that of the magnetic pillar.

Or the first magnetic part adopts a magnet, and the second magnetic part adopts a magnet with the polarity opposite to that of the magnet, or an iron sheet or an alloy sheet adsorbed by the magnet.

This example adopts magnetism principle to realize the absorption of power module and mirror leg, for example when the surface that power module set up the second magnetism spare is close to the holding tank that sets up on the mirror leg, the power module just can adsorb on the mirror leg. The size of intelligent glasses can not be additionally increased in the simple adsorption mode, and the miniaturization of the intelligent glasses is realized.

Optionally, the shape of the power supply module is a circular structure, a square structure or a different-shaped structure; the shape of holding tank and the shape of power module match each other. This example holding tank plays the effect of holding power module for power module can be more firm adsorb on the mirror leg.

In one example, a display module 106 and an optical module 107 electrically connected to the display module 106 are disposed on the mirror frame 101; the control module 105 is configured to control the display module and the optical module. For example, the control module 105 includes a circuit board and electronic components disposed on the circuit board, wherein the electronic components are electrically connected to the display module 106 and the optical module 107.

The display module 106, the optical module 107 and the control module 105 together implement the function of the smart glasses, for example, the smart glasses may be a mixed reality device MR applied to AR augmented reality AR glasses, virtual reality VR devices, or a combination of the two. The power supply module configuration is used for providing the electric energy for control module in this example, and then makes the function of intelligent glasses can normal use, prolongs the time of endurance of intelligent glasses.

Optionally, the frame 101 houses a face mask 108, wherein the face mask 108 is configured to elastically deform to fit the face of the user during wearing, thereby improving the wearing comfort of the user.

The intelligent glasses can further comprise other power supplies, for example, the other power supplies are embedded in the intelligent glasses and are non-detachable or inconvenient detachable parts. When other power supplies are insufficient or the intelligent glasses need larger endurance, the power supply module disclosed by the invention is used for continuously supplying power to the intelligent glasses, so that the power supply endurance of the intelligent glasses is improved.

Although some specific embodiments of the present invention have been described in detail by way of examples, it should be understood by those skilled in the art that the above examples are for illustrative purposes only and are not intended to limit the scope of the present invention. It will be appreciated by those skilled in the art that modifications may be made to the above embodiments without departing from the scope and spirit of the invention. The scope of the invention is defined by the appended claims.

Claims

1. A smart eyewear, comprising:

a mirror frame;

and the power supply module is electrically connected with the control module.

2. The smart eyewear of claim 1, wherein the temple arm is hinged to the frame via a hinge.

3. The pair of smart glasses according to claim 1, wherein the power supply modules are respectively attached to the two temples, and the two power supply modules are respectively electrically connected to the control module through first connection lines to form two electrical circuits.

4. The smart eyewear of claim 1, further comprising an elastic strap fixedly connected to the temple.

A second connecting line is arranged in the elastic bandage; the power supply module is respectively adsorbed on the two glasses legs;

one of the power supply modules is electrically connected with the control module;

and the two power supply modules and the control module form an electric loop.

5. The smart eyewear of claim 1, wherein a surface of the power module protrudes from the receiving groove.

6. The smart eyewear of claim 3, wherein the temple comprises a first shell, and a second shell mated to the first shell;

7. The intelligent glasses according to any one of claims 1-6, wherein the power supply module is in a circular, square or special-shaped structure; the shape of holding tank and the shape of power module match each other.

8. The pair of intelligent glasses according to any one of claims 1 to 6, wherein the second magnetic member comprises a magnetic column, a blind hole corresponding to the magnetic column is formed in the accommodating groove, and a first magnetic member with a polarity opposite to that of the magnetic column is arranged in the blind hole.

9. The pair of smart glasses according to any one of claims 1 to 6, wherein the first magnetic member is a magnet, and the second magnetic member is a magnet having a polarity opposite to that of the magnet, or an iron piece or an alloy piece attracted by the magnet.

10. The intelligent glasses according to claim 1, wherein the frame is provided with a display module and an optical module electrically connected with the display module; the control module is configured to control the display module and the optical module.