CN213399066U - Glasses type head-mounted equipment - Google Patents

Abstract

The application aims at providing glasses type head-wearing equipment which comprises a glasses frame portion and glasses legs and is characterized in that a camera is arranged at the upper part of the outer side of each lens of the glasses frame portion; the upper part of the frame part is provided with a plurality of air inlet holes and the front part is provided with an air outlet, a heat dissipation air channel is formed in the frame part from the air inlet holes to the air outlet, and a fan is arranged below the air inlet holes in the heat dissipation air channel; the loudspeaker is arranged to the mirror leg, the outside and the bottom side of mirror leg have arranged loudspeaker phonate hole. Compared with the prior art, the glasses formula head-mounted device that this application provided adopts two mesh cameras to show the localization tracking who has promoted the user, and the heat dissipation wind channel has improved glasses formula head-mounted device's initiative heat-sinking capability and radiating efficiency, and tone quality has also effectively been guaranteed to the position configuration of loudspeaker sound outlet.

Description

Glasses type head-mounted equipment

Technical Field

The application relates to the technical field of head-mounted equipment, in particular to glasses type head-mounted equipment.

Background

AR products, such as glasses type head-mounted devices, employ monocular cameras, are less accurate for user localization tracking. Moreover, the glasses type head-mounted equipment is large in power consumption and small in size, heat accumulation is easy to generate, the glasses type head-mounted equipment is closer to the face of a person when the glasses type head-mounted equipment is worn, and the heat dissipation performance is very important for user experience.

SUMMERY OF THE UTILITY MODEL

An object of the present application is to provide an eyeglass type head mounted device.

According to one aspect of the application, an eyeglass type head-wearing device is provided, which comprises a frame part and temples, and is characterized in that a camera is arranged at the upper part of the outer side of each lens of the frame part; the upper part of the frame part is provided with a plurality of air inlet holes and the front part is provided with an air outlet, a heat dissipation air channel is formed in the frame part from the air inlet holes to the air outlet, and a fan is arranged below the air inlet holes in the heat dissipation air channel; the loudspeaker is arranged to the mirror leg, the outside and the bottom side of mirror leg have arranged loudspeaker phonate hole.

According to some examples of the application, the temple arm is connected to the frame portion by a spring-loaded hinge mechanism to accommodate different abduction or invagination angles.

Further, the spring rotating shaft mechanism comprises a front rotating shaft support, a shaft lever, a rear rotating shaft sliding block, a rear rotating shaft support, a spring and a locking polished rod;

the front rotating shaft support and the rear rotating shaft support are connected through the shaft rod, the rear rotating shaft sliding block is sleeved on the rear rotating shaft support, the spring is pressed in a round hole in the rear rotating shaft sliding block by the rear rotating shaft support, and the locking polished rod is locked on the rear rotating shaft sliding block so that the spring can stretch and retract along the locking polished rod.

According to some embodiments of the application, a Type-C interface is arranged on a side of the spring hinge mechanism of the left side temple, which side is close to the frame portion.

According to some embodiments of the present application, the frame portion comprises a front case, a rear case, and a main body;

the air inlet hole is arranged at the upper part of the rear shell, and the air outlet is arranged between the two mirror frames of the front shell;

the main body comprises a screen, a heat conduction module and a PCB board, the heat conduction module and the screen are sequentially arranged from top to bottom, the heat conduction module crosses the heat dissipation air duct between the two screens,

the heat conduction module includes heat conduction sheetmetal, heat conduction tubular metal resonator and heat-conducting medium, every the heat conduction sheetmetal is hugged closely the screen, the both ends of heat conduction tubular metal resonator respectively with the heat conduction sheetmetal contact, the position of heat-conducting medium with the position of chip on the PCB board is corresponding, the one side of heat-conducting medium is hugged closely the chip, the another side with the heat conduction tubular metal resonator contacts.

According to some embodiments of the application, two of the cameras are configured to support a 6Dof tracking function.

According to some embodiments of the present application, the location and number of the horn sound holes on the outside and bottom side of the temple are determined based on acoustic simulations and optimization.

According to some embodiments of the application, the frame portion is configured with an exchangeable nose pad.

According to some embodiments of the application, an anti-drop hanging rope is connected to the end of the temple.

According to some embodiments of the application, the frame portion is configured with a magnetically attractable lens holder to fit a myopic lens.

Compared with the prior art, the glasses formula head-mounted device that this application provided adopts two mesh cameras to show the localization tracking who has promoted the user, and the heat dissipation wind channel has improved glasses formula head-mounted device's initiative heat-sinking capability and radiating efficiency, and tone quality has also effectively been guaranteed to the position configuration of loudspeaker sound outlet.

Drawings

Other features, objects and advantages of the present application will become more apparent upon reading of the following detailed description of non-limiting embodiments thereof, made with reference to the accompanying drawings in which:

FIG. 1 illustrates a front, general schematic view of a spectacle headset according to one embodiment of the present application;

FIG. 2 illustrates a reverse overall schematic view of a spectacle headset according to one embodiment of the present application;

FIG. 3 illustrates an exploded schematic view of the spring spindle mechanism 10 according to one example of the present application;

fig. 4(a) shows a schematic view of the spring spindle mechanism 10 shown in fig. 3 in a natural state; FIG. 4(b) shows a schematic view of the spring spindle mechanism 10 shown in FIG. 3 in a folded state; FIG. 4(c) shows a schematic view of the spring spindle mechanism 10 shown in FIG. 3 rotated outwardly at an angle;

fig. 5 shows a schematic exploded view of the frame part 2 of the glasses-type headgear shown in fig. 1.

The same or similar reference numbers in the drawings identify the same or similar elements.

Detailed Description

Specific structural and functional details disclosed herein are merely representative and are provided for purposes of describing example embodiments of the present application. This application may, however, be embodied in many alternate forms and should not be construed as limited to only the embodiments set forth herein.

It will be understood that, although the terms first, second, etc. may be used herein to describe various elements, these elements should not be limited by these terms. These terms are only used to distinguish one element from another. For example, a first element may be termed a second element, and, similarly, a second element may be termed a first element, without departing from the scope of example embodiments. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It will be further understood that the terms "comprises" and/or "comprising," when used herein, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

It should also be noted that, in some alternative implementations, the functions/acts noted may occur out of the order noted in the figures. For example, two figures shown in succession may, in fact, be executed substantially concurrently, or the figures may sometimes be executed in the reverse order, depending upon the functionality/acts involved.

The present application provides a head-mounted device including glasses. The eyeglass type head-mounted device is to be understood in a broad sense, and includes both eyeglass devices and helmet-mounted head-mounted devices including eyeglass structures. In particular, the glasses type head-mounted device to which the present application is applicable includes, but is not limited to, general glasses, Virtual Reality (VR) glasses, Augmented Reality (AR) glasses, Mixed Reality (MR) glasses, video viewers, eye massagers, and any other head-mounted device having a frame and temple structure.

The glasses type head-mounted equipment provided by the application obviously improves the use experience of a user. In some embodiments, a camera is disposed on an upper portion of an outer side of each lens of the frame portion, the upper portion of the frame portion has a plurality of air inlet holes and an air outlet at a front portion, a heat dissipation air duct is formed in the frame portion from the air inlet holes to the air outlet, a fan is disposed below the air inlet holes in the heat dissipation air duct, the glasses legs are disposed with speakers, and speaker sound outlet holes are disposed on an outer side and a bottom side of the glasses legs.

Here, the binocular camera is showing the localization tracking who has promoted the user, and the heat dissipation wind channel has improved glasses formula head-mounted apparatus's initiative heat-sinking capability and radiating efficiency, and tone quality has also effectively been guaranteed to the position configuration of loudspeaker phonate hole.

In some embodiments, the two cameras form binocular vision cameras and are configured to support a 6Dof (six-degrees-of-freedom) tracking function. The 6Dof head-mounted device can detect not only a change in the angle of field of view due to rotation of the head but also a change in the vertical, front, rear, left and right displacements due to body movement.

In some embodiments, the location and number of horn sound holes on the outside and bottom side of the temple are determined based on acoustic simulations and optimization. Set up loudspeaker at the mirror leg, loudspeaker are close to people's ear when the user wears glasses formula head-mounted apparatus, can be used to application scenes such as recreation, sight shadow, social contact, and the quantity and the position of loudspeaker phonate hole optimize after acoustic simulation calculates and reachs for tone quality obtains guaranteeing

In some embodiments, the frame portion is configured with replaceable nose pads, thereby accommodating the nose patterns of different users.

In some embodiments, the tail ends of the glasses legs are connected with anti-falling hanging ropes, the tightness can be adjusted, and the glasses are prevented from falling off in the game scenes with violent movement.

In some embodiments, the frame portion is configured with a magnetically attractable lens holder to accommodate a myopic lens.

In some embodiments, each temple of the eyewear-type headgear provided herein may be connected to the frame portion via a spring-hinge mechanism to accommodate different extension or fold-in angles; therefore, the glasses legs can be outwards unfolded at a certain angle while clamping force is ensured, so that the glasses legs can be suitable for wearers with different head sizes, and the glasses legs can be folded in the rotating shaft, so that the glasses legs are convenient to store.

Further, in some examples, a Type-C interface is arranged on one side, close to the frame portion, of the spring rotating shaft mechanism of the left side glasses leg, so that the glasses Type headset can be conveniently connected with a mobile phone through a data line, and the operation of the mobile phone when a user wears the glasses Type headset is not affected.

In some embodiments, the present application provides a spectacle-type headset frame portion comprising a front shell, a rear shell, and a main body. The fresh air inlet is arranged on the upper portion of the rear shell, and the air outlet is arranged between the two mirror frames of the front shell. The main part includes screen, heat conduction module and PCB board, heat conduction module and screen top-down arrange in proper order, and the heat conduction module crosses the heat dissipation wind channel between two screens. The fan in the heat dissipation air channel is arranged below the air inlet hole. From this, the heat conduction module conducts the heat that screen and PCB board produced to heat dissipation wind channel department, extracts the heat dissipation wind channel with outside cold air simultaneously to carry out heat exchange and discharge the hot-air after will absorbing the heat from the air outlet of preceding shell.

The heat conduction module comprises a heat conduction metal sheet, a heat conduction metal tube and a heat conduction medium. Each heat conduction metal sheet is tightly attached to one screen, and two ends of each heat conduction metal pipe are respectively contacted with the heat conduction metal sheet so as to conduct heat generated by the screen to the heat dissipation air duct. The position of the heat-conducting medium corresponds to the position of the chip on the PCB, one surface of the heat-conducting medium is tightly attached to the chip, and the other surface of the heat-conducting medium is contacted with the heat-conducting metal tube so as to conduct the heat generated by the chip to the heat-conducting metal tube, and further conduct the heat to the heat-radiating air duct through the heat-conducting metal tube.

In some examples, the thermally conductive metal sheet is a thermally conductive aluminum sheet.

In some examples, the thermally conductive metal tube is a thermally conductive copper tube.

In some examples, the heat transfer medium is a heat transfer aluminum sheet and a heat transfer silicone grease.

The present application is described in further detail below with reference to the attached figures.

Fig. 1 shows a front overall schematic view of a spectacle-type headset according to one embodiment of the present application.

Fig. 2 shows a reverse overall schematic view of a spectacle headset according to one embodiment of the present application.

Referring to fig. 1 and 2, the glasses type head set 1 includes a frame portion 2 and temples 3. A camera 5 has been arranged on every lens 4 outside upper portion of mirror frame portion 2, and there are a plurality of fresh air inlets 6 and anterior air outlet 7 on the upper portion of mirror frame portion 2, and along fresh air inlet 6 to air outlet 7 form the heat dissipation wind channel in mirror frame portion and the fan 9 has been arranged to the heat dissipation wind channel in fresh air inlet 6 below, and loudspeaker have been arranged to mirror leg 3, and loudspeaker phonate hole 11 has been arranged to the outside and the bottom side of mirror leg 3.

The binocular camera 5 at the front end of the glasses is arranged on the outer edges of the upper parts of the left and right lenses, so that the 6Dof position tracking function can be realized, and the glasses are attractive.

A heat dissipation air channel is formed along the air inlet hole 6 to the air outlet 7, and a fan 9 is arranged below the air inlet hole 6 in the heat dissipation air channel. Accordingly, the fan 9 draws the outside cold air into the heat dissipation air duct in the eyeglass type head set 1, carries away the heat generated by the eyeglass type head set 1 by heat exchange, and discharges the heat from the air outlet 7.

The left and right mirror legs 3 are respectively provided with a loudspeaker, and the loudspeakers are close to the ears of people when the glasses are worn, so that the glasses can be used for application scenes such as games, movie watching and social contact. The outer side and the bottom side of the glasses legs 3 are respectively provided with a loudspeaker sound outlet 11. For the sake of distinction, the sound outlet holes on the outer side may be referred to as horn-side sound outlet holes, and the sound outlet holes on the bottom side may be referred to as horn-lower sound outlet holes. As shown in fig. 2, the left and right temples 3 are respectively provided with 3 speaker lower sound outlet holes and 1 speaker side sound outlet hole, and the positions of the speaker sound outlet holes are close to the positions of ears when wearing, which are obtained by optimization after acoustic simulation calculation, so that the sound quality is ensured.

The frame portion 2 may also be provided with replaceable nose pads 12 so as to be adaptable to different users' nose types.

The end connection of mirror leg 3 has anti-drop to hang rope 13, adjustable elasticity for the violent recreation scene of motion prevents that glasses from droing.

The frame part 2 can also be provided with a magnetic attraction type lens support 14 to adapt to a myopia lens 15, so that the use requirement of a myopia person is met.

The position department that is close to frame portion 2 on the left side mirror leg 3 can be configured with Type-C interface 16, and the glasses formula head-mounted device of being convenient for passes through the data line and is connected with the cell-phone, and does not influence the operation to the cell-phone when the user wears glasses formula head-mounted device.

In some embodiments, each temple 3 of the eyeglass-type headset 1 may be connected to the frame portion 2 by a spring-hinge mechanism 10 to accommodate different extension or retraction angles; from this, mirror leg 3 can outwards open certain angle when guaranteeing clamping force, therefore can be applicable to the person of wearing of different head sizes, and the pivot infolding can be packed up the mirror leg again, convenient to accomodate.

According to an example of the present application, a Type-C interface 16 is arranged on the side of the spring spindle mechanism 10 of the left side temple 3 close to the frame portion 2.

Fig. 3 shows an exploded schematic view of a spring spindle mechanism 10 according to one example of the present application.

As shown in fig. 3, the spring spindle mechanism 10 includes a spindle bracket 105, a shaft 106, a rear spindle slider 107, a rear spindle bracket 108, a spring 109, and a lock polished rod 110. The connection unit 104 is a screw, the flexible flat cable FFC 103 passes through the spring spindle mechanism 10 to be connected with the temple 3, the spring spindle mechanism 10 is fixed with the frame 2 through the connection unit 104, the front spindle support 105 is connected with the rear spindle support 108 through a shaft rod 106, the rear spindle slider 107 is sleeved on the rear spindle support 108, the spring 109 is pressed in a circular hole of the rear spindle slider 107 by the rear spindle support 108, and the lock polished rod 110 is locked on the rear spindle slider 107 through a thread, so that the spring 109 can extend and retract along the lock polished rod 110. It should be noted that fig. 3 shows only the structure of the spring hinge mechanism 10 on one side of the temple of the head set for the sake of simplicity.

Fig. 4(a) shows a schematic view of the spring spindle mechanism 10 shown in fig. 3 in a natural state, i.e., an initial state after the components of the spring spindle mechanism 10 are completely mounted. When the spring hinge mechanism 10 is folded, the rear hinge bracket 108 rotates 90 ° from the natural state to the position shown in fig. 4(b) through the shaft 106, and since the contact position of the front hinge bracket 105 and the rear hinge slider 107 is different from the center position of the shaft 106, the rear hinge slider 107 moves upwards during the rotation, and the spring 109 is compressed to generate a reaction force, thereby generating a moment for preventing the rotation of the spring 109, when the hinge rotates 90 °, the rear hinge slider 107 is blocked on the side step due to the existence of the side step on the front hinge bracket 105, and cannot rebound, and the effect of folding the temple 3 is achieved at this time.

Fig. 4(c) shows a schematic view of the spring spindle mechanism 10 shown in fig. 3 rotated outward at a certain angle. When the temples 3 are outwardly snapped due to the size of the head of different users, the rear rotation shaft bracket 108 is rotated outwardly by the shaft rod 106 from a natural state, and since the contact position of the front rotation shaft bracket 105 and the rear rotation shaft slider 107 is different from the center position of the shaft rod 106, the rear rotation shaft slider 107 moves upwardly during the rotation, so that the spring 109 is compressed to generate a reaction force, thereby generating a moment for preventing the rotation of the spring 109, that is, a clamping force of the temples 3 for clamping both sides of the head of the user.

Fig. 5 shows an exploded schematic view of the frame part 2 according to an embodiment of the present application.

Referring to fig. 5, the frame part 2 includes a front case 21, a rear case 22, and a main body 23.

The air inlet 6 is disposed at an upper portion of the rear case 22, and the air outlet 7 is disposed between the two lens frames of the front case 21.

The main body 23 includes a screen 24, a heat conducting module 25 and a PCB 26, the heat conducting module 25 and the screen 24 are sequentially disposed from top to bottom, and the heat conducting module 25 crosses the heat dissipating air duct 8 between the two screens 24.

The heat conducting module 25 includes a heat conducting metal sheet 251, a heat conducting metal tube 252, and a heat conducting medium 253. Each heat conducting metal sheet 251 is tightly attached to one screen 24, and both ends of the heat conducting metal tube 252 are respectively contacted with the heat conducting metal sheets 251 to conduct the heat of the screen 24 to the heat dissipation air duct 8. Typically, the heat conductive metal sheet 251 may be, for example, a heat conductive aluminum sheet, and the heat conductive metal tube 252 may be, for example, a heat conductive copper tube.

In some embodiments, a heat conducting medium 253 may also be disposed above the heat conducting metal tube 252. Here, the heat transfer medium 253 serves to transfer heat to the chip 27 on the PCB 26, so that its position may correspond to the position of the chip 27 on the PCB 26. Typically, the heat transfer medium 253 may be, for example, a heat transfer aluminum sheet and a heat transfer silicone grease. The heat transfer medium 253 is disposed under the chip 27 on the PCB board 26, contacts the chip 27 and transfers heat of the chip to the heat dissipation duct 8 via the heat transfer metal pipe 21.

It should be noted that the structure of the PCB 26 and the type of the chip 27 are not the focus of the present application, and are not described herein too much, and the PCB and the chip applicable to the glasses-type head-mounted device in the art can be cited and included herein.

In some examples, the heat conductive metal tube 252 may be disposed with heat sinks 254 on both sides across the heat dissipation duct 8, the heat sinks 254 being multi-finned to accelerate heat dissipation.

A fan 9 is arranged below the air inlet hole 6 in the heat dissipation air duct 8. The fan 9 extracts outside cold air from the air inlet 6 to the heat dissipation air duct 8, and the heat conduction module 25 conducts heat generated by the screen 24 and the chip 27 to the heat dissipation air duct 8, so that the cold air is discharged from the air outlet 7 after absorbing the heat.

Through the initiative heat dissipation scheme of above-mentioned embodiment, the head-mounted device of this application can effectively obtain the cooling through heat dissipation channel at the during operation to user's wearing experience has been promoted.

It will be evident to those skilled in the art that the present application is not limited to the details of the foregoing illustrative embodiments, and that the present application may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the application being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned. Furthermore, it is obvious that the word "comprising" does not exclude other elements or steps, and the singular does not exclude the plural. A plurality of units or means recited in the system claims may also be implemented by one unit or means in software or hardware. The terms first, second, etc. are used to denote names, but not any particular order.

Claims (10)

1. The glasses type head-wearing equipment comprises a frame part and glasses legs, and is characterized in that a camera is arranged at the upper part of the outer side of each lens of the frame part; the upper part of the frame part is provided with a plurality of air inlet holes and the front part is provided with an air outlet, a heat dissipation air channel is formed in the frame part from the air inlet holes to the air outlet, and a fan is arranged below the air inlet holes in the heat dissipation air channel; the loudspeaker is arranged to the mirror leg, the outside and the bottom side of mirror leg have arranged loudspeaker phonate hole.

2. The eyeglass-type headgear of claim 1, wherein the temple is connected to the frame portion by a spring-loaded hinge mechanism to accommodate different abduction or invagination angles.

3. The eyeglass-type headgear of claim 2, wherein the spring spindle mechanism comprises a front spindle bracket, a spindle, a rear spindle slider, a rear spindle bracket, a spring, and a locking polished rod;

the front rotating shaft support and the rear rotating shaft support are connected through the shaft rod, the rear rotating shaft sliding block is sleeved on the rear rotating shaft support, the spring is pressed in a round hole in the rear rotating shaft sliding block by the rear rotating shaft support, and the locking polished rod is locked on the rear rotating shaft sliding block so that the spring can stretch and retract along the locking polished rod.

4. The eyeglass-Type headset of claim 2 or 3, wherein a Type-C interface is arranged on a side of the spring hinge mechanism of the left side temple adjacent to the frame portion.

5. The eyeglass type headgear of claim 1, wherein the bezel portion comprises a front shell, a rear shell, and a main body;

the air inlet hole is arranged at the upper part of the rear shell, and the air outlet is arranged between the two mirror frames of the front shell;

the main body comprises a screen, a heat conduction module and a PCB board, the heat conduction module and the screen are sequentially arranged from top to bottom, the heat conduction module crosses the heat dissipation air duct between the two screens,

the heat conduction module includes heat conduction sheetmetal, heat conduction tubular metal resonator and heat-conducting medium, every the heat conduction sheetmetal is hugged closely the screen, the both ends of heat conduction tubular metal resonator respectively with the heat conduction sheetmetal contact, the position of heat-conducting medium with the position of chip on the PCB board is corresponding, the one side of heat-conducting medium is hugged closely the chip, the another side with the heat conduction tubular metal resonator contacts.

6. The eyewear headset of claim 1, wherein two of the cameras are configured to support a 6Dof tracking function.

7. The eyewear headset of claim 1, wherein the location and number of the speaker vents on the outside and bottom side of the temple are determined based on acoustic simulations and optimization.

8. The eyeglass-type headgear of claim 1, wherein the frame portion is configured with a replaceable nose pad.

9. The glasses-type headset of claim 1, wherein an anti-drop hanging string is connected to a distal end of the temple.

10. The eyeglass type headgear of claim 1, wherein the frame portion is configured with a magnetically attractable lens holder to fit a near vision lens.

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