CN105892099B - Intelligent glasses - Google Patents

Abstract

The invention relates to an intelligent glasses, which comprises a head-wearing main body, a connecting shell and optical-mechanical imaging equipment, wherein the connecting shell is arranged on the head-wearing main body, the optical-mechanical imaging equipment is arranged on the connecting shell, a circuit board is arranged in the connecting shell, the intelligent glasses also comprise a first microphone and a second microphone which are positioned in the connecting shell and electrically connected with the circuit board, a first through hole opposite to the first microphone and a second through hole opposite to the second microphone are arranged on the connecting shell, the first microphone is arranged in the first through hole, and the second microphone is arranged in the second through hole; wherein: along the thickness direction of the circuit board, the first microphone is positioned on one side of the circuit board facing the face of the user for keeping playing voice; the second microphone is positioned on one side of the circuit board, which faces away from the face of the user, and emits sound waves opposite to ambient sounds to reduce ambient noise. Above-mentioned intelligent glasses can reduce the interference of environmental sound to the conversation, definition and the degree of accuracy when can improve the conversation effectively, improve user's sense of hearing experience.

Description

Intelligent glasses

Technical Field

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

Background

Smart glasses are a typical representative of wearable smart devices, and their advent has changed the way and portal in which people access the internet. The eyes are the most direct tool for the user to communicate with the outside, and with the intelligent glasses, the user can be in closer contact with the internet, and the images and data of the virtual world can be superposed to the reality, so that a colorful application scene can be presented. As the smart glasses industry is still in a development stage in the world and with the widespread of wearable devices in the current market, some of the drawbacks of smart glasses are slowly manifested. The design of the single microphone of adoption in the intelligent glasses on the market at present, environmental sound can be gathered to single microphone when using to definition and the degree of accuracy when influencing the conversation make user's auditory effect can receive very big influence.

Disclosure of Invention

In order to solve the above problems, an object of the present invention is to provide smart glasses, which can effectively reduce the influence of external environmental sounds on the auditory effect of a user, and ensure the clarity and accuracy of a call.

The technical scheme of the intelligent glasses comprises the following steps:

an intelligent glasses comprises a head-wearing main body, a connecting shell and an optical machine imaging device, wherein the connecting shell is installed on the head-wearing main body, the optical machine imaging device is installed on the connecting shell, a circuit board is arranged in the connecting shell, the intelligent glasses further comprise a first microphone and a second microphone which are located in the connecting shell and electrically connected with the circuit board, a first through hole opposite to the first microphone and a second through hole opposite to the second microphone are formed in the connecting shell, the first microphone is installed in the first through hole, and the second microphone is installed in the second through hole; wherein:

along the thickness direction of the circuit board, the first microphone is positioned on one side of the circuit board facing the face of a user for keeping playing voice; the second microphone is positioned on one side of the circuit board, which is far away from the face of the user, and emits sound waves opposite to the ambient sounds to reduce the ambient noise.

The intelligent glasses in the above scheme have be located the connecting shell and with the first microphone and the second microphone that the circuit board electricity is connected, wherein, first microphone is located the circuit board towards the one side of user's face in order to be used for playing pronunciation, and the second microphone is located the one side that the circuit board deviates from the user's face to can send the sound wave opposite with environmental sound and reduce ambient noise, definition and the degree of accuracy when can improving the conversation effectively, improve user's sense of hearing and experience.

Preferably, the first microphone is located at one end portion of the circuit board and the second microphone is located at the other end portion of the circuit board in an extending direction of the circuit board.

Preferably, the first microphone and the circuit board are soldered, and the second microphone and the circuit board are soldered.

Preferably, a first fixing mechanism for fixing the first microphone is arranged on the connecting shell, and a second fixing mechanism for fixing the second microphone is arranged on the connecting shell; the first fixing mechanism has a center hole to form the first through hole, and the second fixing mechanism is provided with a center hole to form the second through hole.

Preferably, still including set up in detection device in the connecting shell, detection device includes temperature detection module, humidity detection module and atmospheric pressure detection module, just be equipped with on the connecting shell with the bleeder vent that detection device corresponds.

Preferably, the detection device further includes a fixing frame installed in the connection housing and located at the air vent, the temperature detection module, the humidity detection module and the air pressure detection module are integrated in the fixing frame, the fixing frame is of a double-channel structure, the fixing frame is provided with a first air flow channel and a second air flow channel, the first air flow channel is communicated with the air vent, external air flows flow into the detection device, and air flows out of the detection device are supplied to the second air flow channel.

Preferably, the optical machine further comprises a light hood, wherein the light hood is mounted on the connecting shell and covers at least one side surface of the optical machine imaging device except for the display surface.

Preferably, the optical machine cover is clamped with the connecting shell through at least one pair of clamping grooves and clamping buckles clamped with each other.

Preferably, the light hood has a first side panel, a second side panel, a third side panel, and a fourth side panel, wherein:

the optical mechanical imaging device is located between the first side plate and the third side plate, the first side plate is used for covering a first side face, adjacent to the display face, of the optical mechanical imaging device, and the third side plate is used for covering a third side face, adjacent to the display face and opposite to the first side face, of the optical mechanical imaging device;

the second side plate is connected with the first side plate and the third side plate and used for covering a second side face, opposite to the display face, of the optical machine imaging equipment;

the fourth side plate is connected with the first side plate, the second side plate and the third side plate, which are away from the side edge of the connecting shell, and is used for covering a fourth side surface, which is connected with the display surface, the first side surface, the second side surface and the third side surface, of the optical machine imaging equipment, and the side edges, which are away from the second side plate, of the first side plate, the third side plate and the fourth side plate are matched to form a window for exposing the display surface of the optical machine imaging equipment.

Preferably, the connection casing includes ray apparatus support, pivot support, camera support and integrated circuit casing, wherein:

the optical-mechanical imaging equipment is arranged on the optical-mechanical bracket;

one end of the rotating shaft is fixed on the optical machine support;

the other end of the rotating shaft can be pivoted on the rotating shaft bracket in a manner of rotating around the axis of the rotating shaft;

the rotating shaft bracket is fixed on the camera bracket;

the camera bracket is fixed on the integrated circuit shell;

the integrated circuit housing is mounted to the head-mounted body.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and 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 and not to limit the invention. In the drawings:

FIG. 1 is a schematic structural diagram of smart eyewear in accordance with the present invention;

FIG. 2 is a schematic structural diagram of a connecting housing of the smart eyewear of the present invention;

FIG. 3 is a side view of the smart glasses of the present invention with the dual microphones soldered to the flexible circuit board;

FIG. 4 is a top view of the smart glasses of the present invention with the dual microphones soldered to the flexible circuit board;

FIG. 5 is a schematic structural view of a dual-channel ventilation component of the smart eyewear of the present invention;

FIG. 6 is a schematic view of the connection state of the light housing of the smart glasses according to the present invention;

FIG. 7 is a schematic view of the mounting of the optical cover of the smart glasses of the present invention;

fig. 8 is a schematic structural diagram of a light hood of the smart glasses according to the present invention.

Detailed Description

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.

As shown in fig. 1, an embodiment of the present invention provides a pair of smart glasses, including a head-mounted main body 1, a connecting housing 2, and an optical imaging device 3, where the shape of the head-mounted main body 1 may be the glasses frame structure in fig. 1, or may also be a head band, a helmet, and the like, and the smart glasses are not limited to this, and have a function of wearing the smart device on the top of the head; the connecting shell 2 is arranged on the head-wearing main body 1, the optical mechanical imaging device 3 is arranged on the connecting shell 2, and the optical mechanical imaging device 3 is provided with a display surface opposite to human eyes and used for outputting image information for the human eyes to browse; the interior of the connecting shell 2 is provided with a circuit board 6, two ends of the circuit board 6 are respectively electrically connected with the head-wearing type main body 1 and the optical machine imaging device 3, and energy supply and/or information transmission can be carried out between the optical machine imaging device 3 and the head-wearing type main body 1.

As shown in fig. 3 and 4, the smart glasses of the present invention further include a first microphone 901 and a second microphone 902 located in the connecting housing 2 and electrically connected to the circuit board 6, wherein the connecting housing 2 is provided with a first through hole opposite to the first microphone 901, and the first microphone 901 is installed in the first through hole; a second through hole opposite to the second microphone 902 is formed in the connecting shell 2, and the second microphone 902 is installed in the second through hole; wherein:

the first microphone 901 is arranged on the side of the circuit board 6 facing the face of the user along the thickness direction of the circuit board 6 to play voice information, so that the user can clearly hear the voice information played by the first microphone 901; the second microphone 902 is located on the side of the circuit board 6 facing away from the user's face to emit sound waves opposite the ambient sound to reduce ambient noise.

Among the above-mentioned intelligent glasses, through making an uproar of falling of second microphone 902 reduce the influence of environment sound to first microphone 901 broadcast pronunciation, and then definition and the degree of accuracy when can improve the conversation effectively improve user's sense of hearing experience.

Preferably, in the extending direction of the circuit board 6, the first microphone 901 is located at one end portion of the circuit board, and the second microphone 902 is disposed at the other end portion of the circuit board 6. The separate arrangement of the first microphone 901 and the second microphone 902 is advantageous for distinguishing the call sound of the user from the detected ambient noise.

There are various mounting manners of the first and second microphones 901 and 902, and in order to improve the stability of the electrical connection between the first and second microphones 901 and 902 and the circuit board 6, it is preferable that the first microphone 901 and the circuit board 6 are soldered, and the second microphone 902 and the circuit board 6 are soldered.

Meanwhile, in order to improve the stability of the matching between the first microphone 901 and the second microphone 902 and the connecting housing 2, the connecting housing 2 may further be provided with a first fixing mechanism for fixing the first microphone 901, and the connecting housing 2 is further provided with a second fixing mechanism for fixing the second microphone 902; the first fixing mechanism is provided with a central hole to form the first through hole, and the second fixing mechanism is provided with a central hole to form the second through hole.

The first fixing structure may be a sealing ring or a sealing band made of plastic, and the second fixing structure may also be a sealing ring or a sealing band made of plastic.

Preferably, the circuit board 6 is a flexible circuit board, which facilitates the position and posture adjustment of the connecting housing 2 and the opto-mechanical imaging device 3.

In addition, the intelligent glasses further comprise a detection device 7 arranged in the connecting shell 2, wherein the detection device 7 comprises a temperature detection module, a humidity detection module and an air pressure detection module, and air holes corresponding to the detection device 7 are formed in the connecting shell 2. The detection means 7 is preferably a compound sensor that can be used to measure the temperature, humidity and air pressure of the external environment. The air holes are used for allowing external air flow to enter and exit the detection device 7 so as to measure the temperature, the humidity and the air pressure.

Furthermore, the detection device 7 of the smart glasses further comprises a fixing frame 8 which is installed on the connecting shell 2 and located at the position of the vent hole, wherein the detection device 7 integrating the temperature detection module, the humidity detection module and the air pressure detection module is arranged on the fixing frame 8. The fixing frame 8 can have various shapes and structures to achieve the predetermined ventilation and fixing effects, and the present invention preferably adopts a double-channel ventilation fixing frame, as shown in fig. 5, the double-channel ventilation fixing frame, that is, the fixing frame 8 is provided with a first airflow channel 801 and a second airflow channel 802 which are communicated with the ventilation holes, the first airflow channel 801 is used for external airflow to flow into the detection device 7, and the second airflow channel 802 is used for airflow to flow out of the detection device 7. The double-channel ventilation structure enables the air flow to circulate more frequently and freely, so that the outside air parameters measured by the detection device 7 are more accurate.

In a preferred embodiment of the present invention, the smart glasses further comprise a light engine cover 4, the light engine cover 4 being mounted on the connection housing 2 and covering at least one side of the light engine imaging device 3 except for the display surface.

Specifically, as shown in fig. 6 and 7, a first limiting mechanism 501 is disposed on the optical engine cover 4, a second limiting mechanism 502 is disposed on the connecting housing 2, and the first limiting mechanism 501 and the second limiting mechanism 502 are mutually matched to mount the optical engine cover 4 on the connecting housing 2.

The light hood 4 can effectively reduce the influence of external light on the visual effect of a user. Meanwhile, the intelligent glasses provided by the embodiment of the invention are simple in structure, easy to manufacture, suitable, safe and reliable, and convenient to implement, popularize and apply.

The first limiting mechanism 501 and the second limiting mechanism 502 in the above scheme may have various implementation manners, such as a buckle, a chute, a pin, an adhesive, or a composite connection manner formed by combining various connection manners; preferably, as shown in fig. 7 and 8, the first limiting mechanism 501 is a buckle, and the second limiting mechanism 502 is a slot. The mounting manner of the optical engine cover 4 of the intelligent glasses with the first limiting mechanism 501 and the second limiting mechanism 502 is shown in fig. 7 (an arrow in fig. 7 is the mounting direction of the optical engine cover 4), the optical engine cover 4 is directly sleeved on the optical engine imaging device 3 from the front, and is fixed at a preset position through a clamping groove and a buckling structure, and when the intelligent glasses need to be cleaned or replaced, the optical engine cover can be detached.

Specifically, the optical enclosure 4 and the connecting housing 2 are clamped by at least a pair of clamping grooves and a pair of clamping buckles which are clamped with each other.

Preferably, the light engine cover 4 of the present invention has a first side plate, a second side plate, a third side plate and a fourth side plate, wherein:

the first side plate is opposite to the third side plate, the optical mechanical imaging device 3 is located between the first side plate and the third side plate along the arrangement direction of the first side plate and the second side plate, the first side plate is used for covering a first side surface, adjacent to the display surface, of the optical mechanical imaging device 3, and the third side plate is used for covering a third side surface, adjacent to the display surface and opposite to the first side surface, of the optical mechanical imaging device 3;

the second side plate is connected with the first side plate and the third side plate and used for covering a second side surface, opposite to the display surface, of the optical machine imaging equipment 3;

the fourth side plate is connected with the first side plate, the second side plate and the third side plate away from the side edge of the connecting shell 2, and is used for covering the fourth side surface which is connected with the display surface, the first side surface, the second side surface and the third side surface in the optical machine imaging equipment 3, and the side edges of the first side plate, the third side plate and the fourth side plate away from the second side plate are matched to form a window for exposing the display surface of the optical machine imaging equipment 3.

When the ray apparatus cover 4 of intelligent glasses constructs for foretell structure that has first curb plate, the second curb plate, the third curb plate and fourth curb plate, can carry out comprehensive cover with bare surface except that the surface that ray apparatus imaging device 3 sheltered from and the surface that has been connected casing 2, further reduce the ambient light that enters into ray apparatus imaging device 3 display surface inboard, and then can reduce the influence of ambient light to the image that ray apparatus imaging device appears on the display surface, and then visual experience when improving the user and watching the image.

In one embodiment, the material of the optical housing 4 of the smart glasses of the present invention is photosensitive resin. The photosensitive resin has a characteristic of automatically adjusting the transmittance of the material according to external light, so that a user can enjoy a good visual effect whenever he/she desires. And the photosensitive resin has the advantages of energy conservation, little pollution, high curing speed, high production efficiency, suitability for assembly line production and the like, and is convenient for the production and the molding of the optical hood 4.

On the basis of the above embodiments, as shown in fig. 2, the connection housing 2 in an embodiment of the smart glasses of the present invention includes an optical machine support 201, a rotation shaft 202, a rotation shaft support 203, a camera support 204, and an integrated circuit housing 205. Wherein: the optical-mechanical imaging device 3 is arranged on the optical-mechanical bracket 201; one end of the rotating shaft 202 is fixed on the optical machine support 201, and in the figure, the rotating shaft 202 is fixed on the optical machine support 201 through positioning pins and clamping grooves on two sides; the other end of the rotating shaft 202 can be pivoted on the rotating shaft bracket 203 in a rotating way around the axis thereof, and the rotating pivoting structure can rotate around the central axis thereof and is fixed at a preset angle, so that the optical imaging device 3 is fixed at a required angle in a rotating way; the rotating shaft bracket 203 is fixed on the camera bracket 204; the camera bracket 204 is fixed on the integrated circuit shell 205, and the front end of the camera bracket 204 can be provided with a camera for shooting a picture in front of the intelligent glasses; an integrated circuit case 205 is mounted on the head mount body 1, and the integrated circuit case 205 is connected to the side surface of the head mount body 1 as the end of the connection case 2. The configuration of the connecting housing 2 in the above-described complex structure enables the opto-mechanical imaging apparatus 3 to be freely oriented, thereby creating a better visual effect.

It will be apparent to those skilled in the art that various changes and modifications may be made in the embodiments of the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (9)

1. An intelligent glasses comprises a head-wearing main body, a connecting shell and an optical machine imaging device, wherein the connecting shell is arranged on the head-wearing main body, the optical machine imaging device is arranged on the connecting shell, a circuit board is arranged in the connecting shell, and the intelligent glasses are characterized by further comprising a first microphone and a second microphone which are positioned in the connecting shell and electrically connected with the circuit board, a first through hole opposite to the first microphone and a second through hole opposite to the second microphone are arranged on the connecting shell, the first microphone is arranged in the first through hole, and the second microphone is arranged in the second through hole; wherein:

along the thickness direction of the circuit board, the first microphone is positioned on one side of the circuit board facing the face of a user for keeping playing voice; the second microphone is positioned on one side of the circuit board, which is far away from the face of the user, and emits sound waves opposite to the ambient sounds to reduce the ambient noise;

along the extending direction of the circuit board, the first microphone is located at one end of the circuit board, and the second microphone is located at the other end of the circuit board.

2. The smart eyewear of claim 1, wherein the first microphone is soldered to the circuit board and the second microphone is soldered to the circuit board.

3. The smart glasses according to claim 1, wherein the connecting housing is provided with a first fixing mechanism for fixing the first microphone, and the connecting housing is provided with a second fixing mechanism for fixing the second microphone; the first fixing mechanism has a center hole to form the first through hole, and the second fixing mechanism is provided with a center hole to form the second through hole.

4. The pair of smart glasses according to claim 1, further comprising a detection device disposed in the connection housing, wherein the detection device comprises a temperature detection module, a humidity detection module and an air pressure detection module, and the connection housing is provided with air holes corresponding to the detection device.

5. The pair of smart glasses according to claim 4, wherein the detecting device further comprises a fixing frame installed at the connecting housing and located at the air vent, the temperature detecting module, the humidity detecting module and the air pressure detecting module are integrated in the fixing frame, the fixing frame has a dual-channel structure, the fixing frame is provided with a first air channel and a second air channel communicated with the air vent, the first air channel provides external air to flow into the detecting device, and the second air channel provides air to flow out of the detecting device.

6. The smart eyewear of claim 1 further comprising a light hood mounted to the connection housing and wrapped around at least one side of the opto-mechanical imaging device other than the display.

7. The pair of smart glasses according to claim 6, wherein the optical engine cover is clamped with the connection housing through at least one pair of clamping grooves and clamping buckles clamped with each other.

8. The smart eyewear of claim 6, wherein the light hood has a first side panel, a second side panel, a third side panel, and a fourth side panel, wherein:

the optical mechanical imaging device is located between the first side plate and the third side plate, the first side plate is used for covering a first side face, adjacent to the display face, of the optical mechanical imaging device, and the third side plate is used for covering a third side face, adjacent to the display face and opposite to the first side face, of the optical mechanical imaging device;

the second side plate is connected with the first side plate and the third side plate and used for covering a second side face, opposite to the display face, of the optical machine imaging equipment;

the fourth side plate is connected with the first side plate, the second side plate and the third side plate, which are away from the side edge of the connecting shell, and is used for covering a fourth side surface, which is connected with the display surface, the first side surface, the second side surface and the third side surface, of the optical machine imaging equipment, and the side edges, which are away from the second side plate, of the first side plate, the third side plate and the fourth side plate are matched to form a window for exposing the display surface of the optical machine imaging equipment.

9. The smart eyewear of any of claims 1-8, wherein the connection housing comprises an opto-mechanical mount, a spindle mount, a camera mount, and an integrated circuit housing, wherein:

the optical-mechanical imaging equipment is arranged on the optical-mechanical bracket;

one end of the rotating shaft is fixed on the optical machine support;

the other end of the rotating shaft can be pivoted on the rotating shaft bracket in a manner of rotating around the axis of the rotating shaft;

the rotating shaft bracket is fixed on the camera bracket;

the camera bracket is fixed on the integrated circuit shell;

the integrated circuit housing is mounted to the head-mounted body.

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