CN211067391U - Glasses lens hood structure for relaxing and helping sleep - Google Patents

Abstract

The utility model provides a relax glasses lens hood structure that helps dormancy, this glasses lens hood structural built-in VR helps dormancy structure, brain wave sensing subassembly and keysets, and brain wave sensing data and VR help the data of dormancy structure by two-way transmission via the keysets, only need a data port can realize the two-way transmission of data, and in addition, this glasses lens hood structure portable uses.

Description

Glasses lens hood structure for relaxing and helping sleep

Technical Field

The utility model relates to the field of glasses, in particular to relax glasses lens hood structure that helps dormancy.

Background

Sleep problems have become an epoch of disease. A large number of researches show that sleep and sleep disorder are closely related to various chronic diseases such as cardiovascular and cerebrovascular diseases, diabetes, respiratory diseases, mental disorder and the like. The disease was felt by the united states centers for disease control as early as 2015: "insufficient sleep has become a serious public health problem". The problem not only affects some people with pathological sleep disorder, but also is beset by young people such as students and white-collar workers.

In order to improve the sleep quality of people, a series of intelligent sleep assisting products are available on the market, wherein sleep assisting glasses are taken as a representative, a precise brain wave sensor is mostly arranged on the sleep assisting glasses to accurately acquire the brain wave state of a user, and a corresponding sleep assisting structure is arranged to provide sleep assisting services. Correspondingly, the conventional sleep assisting glasses need to be externally connected with external data processing equipment, and at least need to be provided with a circuit for transmitting brain wave data and a circuit for providing support for a sleep assisting structure, so that a plurality of sleep assisting glasses need to be arranged at fixed positions, and the sleep assisting glasses are inconvenient for users to use anytime and anywhere. In addition, some sleep aid glasses are internally provided with a processing plate, and although the sleep aid glasses can be used anytime and anywhere, the power consumption is very large, the cost is high, the requirement on equipment is high, and the popularization of the sleep aid glasses is not facilitated.

In addition, no matter which type of sleep-assisting glasses mentioned above needs an external power supply device to provide power support, some sleep-assisting glasses also need an external data processing device, that is, a complex and tedious corollary device is required.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a relax glasses lens hood structure that helps dormancy, this glasses lens hood structural built-in VR helps dormancy structure, brain wave sensing subassembly and keysets, and brain wave sensing data and VR help the data of dormancy structure to be by bidirectional transmission via the keysets, only need a data port can realize the bidirectional transmission of data, and in addition, this glasses lens hood structure portable uses.

The utility model provides a relax glasses lens hood structure that helps dormancy, include: the glasses comprise a glasses body, a sleep-aiding component and a brain wave sensing component; wherein help the subassembly of sleeping and arrange the glasses body in, the brain wave sensing subassembly sets up the one side that the glasses body is close to the user and wears, and the keysets sets up on the glasses body, just, helps subassembly of sleeping and brain wave sensing subassembly all to connect in the keysets, helps the subassembly of sleeping to implement and helps the supplementary subassembly of sleeping for virtual reality.

In some embodiments, the brain wave sensing assembly further comprises an arc-shaped strip and a brain wave sensor arranged on the arc-shaped strip, wherein the arc-shaped strip is fixed on the glasses body, and the radian of the arc-shaped strip is matched with the amplitude of the forehead of the human body.

In some embodiments, the arced strip is made of a deformable material, or a memory material.

In some embodiments, the brain wave sensing assembly includes at least five brain wave sensors respectively disposed on the arc-shaped bars, and particularly, the brain wave sensors respectively collect five contact points, i.e., a left data point, a right data point, a reference voltage point, a ground point, and a driving noise point.

In some embodiments, the adapter plate is disposed on the inner side of the glasses body, and at least a brain wave data interface, a sleep-assisting data interface and a data transmission interface are disposed on the adapter plate, and correspondingly, the brain wave sensing component is connected to the brain wave data interface, the sleep-assisting component is connected to the sleep-assisting data interface, and the data transmission component is connected to the sleep-assisting data interface.

In some embodiments, the adapter plate is designed as a special-shaped adapter plate structure and is arranged at the side of the glasses body.

In some embodiments, the brain wave data interface is a TYPE C interface, the sleep-aid data interface is a USB interface, and the transmission data interface is a USB interface.

In some embodiments, help the subassembly of sleeping including placing virtual reality show mainboard and the display screen in the glasses body in, virtual reality show mainboard connection obtains helping the dormancy data in the keysets, and the display screen corresponds the eyepiece window setting of glasses body.

In some embodiments, the glasses lens hood structure is provided with a lens hood body, wherein the lens hood body is arranged at the inner side of the glasses body, the brain wave sensing assembly is arranged on the lens hood body, and a through hole corresponding to an ocular window of the glasses body is formed on the lens hood body.

In some embodiments, the eyewear lens shade structure includes a slack adjustment bungee, wherein the slack adjustment bungee is disposed on the eyewear body forming a closed loop structure.

Compared with the prior art, the utility model has the following characteristics and beneficial effect:

1. the structure of the glasses lens hood is provided with the adapter plate, and the data transmission assembly which is detachably assembled is connected to the main control box to complete data transmission of the glasses lens hood structure.

2. The glasses lens hood is structurally provided with a five-point induction type brain wave sensor, brain wave data are comprehensively collected, and a complex processing module is not needed.

3. The glasses lens hood is structurally provided with a lens hood body, the lens hood body provides a comfortable and light-shading sleep-assisting environment for a user, and the sleep-assisting effect is further improved.

Drawings

Fig. 1 is a schematic view of an overall structure of a glasses lens hood structure disposed in a main control box according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a structure of a lens hood of glasses according to an embodiment of the present invention.

Fig. 3 is a partial schematic structural view of a lens hood structure of glasses according to an embodiment of the present invention.

In the figure: 10-glasses lens hood structure, 11-brain wave sensing component, 111-arc bar, 112-brain wave sensor, 12-sleep aid component, 13-adapter plate, 131-brain wave data interface, 132-sleep aid data interface, 133-transmission data interface, 14-glasses body, 15-lens hood body, 16-elastic binding piece, 20-data transmission component and 30-main control box.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art all belong to the protection scope of the present invention.

It will be understood by those skilled in the art that in the present disclosure, the terms "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in a generic and descriptive sense only and not for purposes of limitation, as the terms are used in the description to indicate that the referenced device or element must have the specified orientation, be constructed and operated in the specified orientation, and not for the purposes of limitation.

It is understood that the terms "a" and "an" should be interpreted as meaning that a number of one element or element is one in one embodiment, while a number of other elements is one in another embodiment, and the terms "a" and "an" should not be interpreted as limiting the number.

The utility model provides a glasses lens hood structure, which is connected with a main control box 30 through a detachable data transmission component 20, the glasses lens hood structure 10 at least comprises a brain wave sensing component 11, a sleep-aiding component 12 and a switching plate 13, the brain wave sensing component 11 and the sleep-aiding component 12 are connected with the switching plate 13; the data transmission assembly 30 is connected to the adapter plate 13 and the main control box 30 to complete data transmission between the glasses lens shade structure 10 and the main control box 30 and power supply support of the glasses lens shade structure 10.

Be different from current conventional relaxation sleep-assisting glasses, the utility model provides a brain wave sensing component 11 that glasses lens hood structure 10 gathered with help the same keysets 13 of sleep component 12 sharing, data transmission component 30 can realize brain wave data and help the two-way transmission of sleep data through same interface, keysets 13 set up the structure of optimizing glasses lens hood structure 10, make it lightly and be convenient for anytime and anywhere to use.

The utility model provides a glasses lens hood structure 10 includes glasses body 14, helps dormancy subassembly 12 arrange glasses body 14 in, and brain wave sensing component 11 sets up the one side that is close to the user and wears at glasses body 14, and adapter plate 13 sets up on glasses body 14, just, helps dormancy subassembly 12 and brain wave sensing component 11 all to connect in adapter plate 13.

Specifically, the brain wave sensing assembly 11 further includes an arc-shaped bar 111 and a brain wave sensor 112 disposed on the arc-shaped bar 111, wherein the arc-shaped bar 111 is fixed on the glasses body 14, and the radian of the arc-shaped bar 111 is adapted to the forehead amplitude of the human body, so that the brain wave sensor 112 can better fit the forehead of the user when the glasses lens hood structure 10 is used in a matched manner.

Additionally, in some embodiments, the arced strip 111 has some deformability. For example, the arc-shaped strip 111 may be made of a deformable material or a memory material to fit the forehead amplitude of different users. In some embodiments, the brain wave sensing assembly 11 is implemented as a flexible FPC board.

The embodiment of the present invention provides a brain wave sensing assembly 11, which comprises at least five brain wave sensors 112 respectively disposed on the arc-shaped bar 111, wherein the brain wave sensors 112 are used for respectively collecting five contact points, i.e. a left data point, a right data point, a reference voltage point, a ground point and a driving noise point, to obtain a weak electrical signal of the brain of a user, and analyze the electrical signal to obtain brain wave data, and perform data transmission through two left and right channels.

The adapter plate 13 is arranged on the inner side of the glasses body 14, and at least provided with a brain wave data interface 131, a sleep-assisting data interface 132 and a transmission data interface 133, correspondingly, the brain wave sensing component 11 is connected to the brain wave data interface 131, and brain wave data can be partially stored on the adapter plate 13; the data transmission component 20 is connected with the sleep-assisting data interface 132 and the main control box and transmits sleep-assisting data; the sleep aid assembly 12 is connected to a sleep aid data interface 132 to transmit external sleep aid data to the sleep aid assembly 12.

The electroencephalogram data interface 131 is implemented as a TYPE C interface, the sleep-aid data interface 132 is implemented as a USB interface, and the transmission data interface 133 is implemented as a USB interface.

The utility model discloses an embodiment, keysets 13 designs for the structure of dysmorphism keysets, arranges the avris of glasses body 14 in, and this design can arrange the trend of circuit in the glasses lens hood structure 10 better, improves the pleasing to the eye optimization structure setting in the time of helping the glasses of sleeping. Specifically, the adapter plate 13 is disposed at a corner of the glasses body 14, and the side edge of the adapter plate is designed to correspond to the arc edge of the glasses body 14.

In the embodiment of the present invention, the sleep-assisting component 12 is implemented as a virtual reality sleep-assisting component, i.e. a picture displayed by VR provides a sleep-assisting service. At this moment, help subassembly 12 of sleeping including arranging virtual reality show mainboard and the display screen in glasses body 14 in, virtual reality show mainboard connection obtains in keysets 13 and helps the data of sleeping, and the display screen corresponds the eyepiece window setting of glasses body 14 to show virtual reality's picture.

In addition, in the embodiment of the present invention, the glasses lens hood structure 10 is provided with the lens hood body 15, wherein the lens hood body 15 is disposed on the inner side of the glasses body 14, and the brain wave sensing component 11 is disposed on the lens hood body 15 to be attached to the forehead of the user. A through hole corresponding to the eyepiece window of the glasses body 14 is formed on the light-shielding cover body 15, so that the user can view the virtual reality display interface. And the light-shielding cover body 15 provides a light-shielding visual environment for the user to create a better sleep-aiding environment.

In some embodiments, the light-shielding cover 15 is made of a sponge body, and at this time, the light-shielding cover 15 can be adaptively changed in shape according to the shape of the face of the human body, and accordingly, the brain wave sensing assembly 11 is well fitted to the forehead of the human body.

In addition, the eyeglass lens hood structure 10 includes a slack adjustment bungee binding 16, wherein the bungee binding 16 is disposed on the eyeglass body 14 to form a closed loop structure to secure the eyeglass lens hood structure 10 to a user's head. In some embodiments, the elastic binding 15 is implemented as an elastic band having both ends connected to the glasses body 14, or at least two fixing bands respectively connected to both sides of the glasses body 14 and a connecting member for adjusting the connecting fixing bands. In some embodiments, the bungee binding 15 is implemented as a self-adhesive binding.

The present invention is not limited to the above-mentioned preferred embodiments, and any other products in various forms can be obtained by the teaching of the present invention, but any changes in the shape or structure thereof, which have the same or similar technical solutions as the present invention, fall within the protection scope of the present invention.

Claims (10)

1. A relaxed sleep-aiding spectacle lens hood structure is characterized by comprising:

a glasses body (14), a sleep-aiding component (12) and a brain wave sensing component (11);

wherein, help dormancy subassembly (12) to arrange in glasses body (14), brain wave sensing component (11) set up in glasses body (14) near the one side that the user wore, adapter plate (13) set up on glasses body (14), and, help dormancy subassembly (12) and brain wave sensing component (11) all connect in adapter plate (13).

2. The relaxed sleep-aiding spectacle lens hood structure according to claim 1, wherein the brain wave sensing assembly (11) further comprises a curved bar (111) and a brain wave sensor (112) disposed on the curved bar (111), wherein the curved bar (111) is fixed on the spectacle body (14), and the radian of the curved bar (111) is adapted to the forehead amplitude of the human body.

3. A relaxed and sleep-aid spectacle lens hood structure according to claim 2, characterized in that the curved strips (111) are made of a deformable material or a memory material.

4. The relaxed sleep-aiding spectacle lens hood structure according to claim 2, wherein the brain wave sensing unit (11) comprises at least five brain wave sensors (112) disposed on the arc-shaped bars (111), specifically, the brain wave sensors (112) for respectively collecting five contact points, i.e., a left data point, a right data point, a reference voltage point, a ground point and a driving noise point.

5. The eyeglasses hood structure for relaxing and helping sleep according to claim 1, wherein the adapter plate (13) is arranged at the inner side of the eyeglasses body (14), and at least one brain wave data interface (131), a sleep-helping data interface (132) and a data transmission interface (133) are arranged on the adapter plate, correspondingly, the brain wave sensing component (11) is connected to the brain wave data interface (131), the sleep-helping component (12) is connected to the sleep-helping data interface (132), and the data transmission component is connected to the sleep-helping data interface (132).

6. A relaxed and sleep-aid spectacle lens hood structure according to claim 1, characterized in that the adapter plate (13) is designed as a profiled adapter plate structure, placed at the side of the spectacle body (14).

7. The eyewear lens hood structure of claim 5 wherein the brain wave data interface (131) is a TYPE C interface, the sleep aid data interface (132) is a USB interface, and the transmission data interface (133) is a USB interface.

8. The glasses lens hood structure for relaxing and aiding sleep according to claim 1, wherein the sleep aiding assembly (12) comprises a virtual reality display main board and a display screen, the virtual reality display main board is arranged in the glasses body (14), the virtual reality display main board is connected to the adapter board (13) to obtain sleep aiding data, and the display screen is arranged corresponding to an eyepiece window of the glasses body (14).

9. The spectacle lens hood structure for relaxing and helping sleep according to any one of claims 1 to 8, characterized in that a lens hood body (15) is provided on the spectacle lens hood structure (10), wherein the lens hood body (15) is provided inside the spectacle body (14), the brain wave sensing unit (11) is provided on the lens hood body (15), and a through hole corresponding to an eyepiece window of the spectacle body (14) is formed on the lens hood body (15).

10. A relaxed, sleep-aiding spectacle lens shade structure according to any one of claims 1 to 8, wherein the spectacle lens shade structure (10) comprises a slack adjuster bungee binding (16), wherein the bungee binding (16) is disposed on the spectacle body (14) forming a closed loop structure.

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