CN212647162U - Augmented reality glasses - Google Patents

Abstract

The utility model discloses augmented reality glasses, which comprises a head-mounted bracket, a main body, a battery compartment, a display module, a rotating mechanism and a conductive component arranged on the rotating mechanism, wherein the rotating mechanism is rotationally connected with the main body, the display module is arranged on the rotating mechanism, the conductive component comprises a first conductive component and a second conductive component which are conducted through contact, the first conductive component is electrically connected with the main body, and the second conductive component is electrically connected with a battery in the battery compartment; the rotating mechanism rotates to drive the first conductive part and the second conductive part to be in contact conduction, the main body starts and/or starts corresponding functions according to conduction between the first conductive part and the second conductive part, the rotating mechanism rotates to drive the first conductive part and the second conductive part to be separated and disconnected, and the main body closes corresponding functions and/or shuts down according to disconnection between the first conductive part and the second conductive part. It can be seen that the utility model discloses an augmented reality glasses had both realized display module assembly's rotation, had saved the entity button again.

Description

Augmented reality glasses

Technical Field

The utility model relates to an augmented reality technical field especially relates to an augmented reality glasses.

Background

Augmented Reality (AR) product includes display module assembly and entity button usually, and wherein display module assembly most fixed settings, unmovable can not rotate, and wherein the entity button is bulky, has occupied a lot of spaces. If the entity key is cancelled, the product is in a starting state for a long time, the power consumption of the product is increased, and the service time of the product is shortened.

In view of the above technical problems, there is a need for designing an augmented reality product with low power consumption and no physical button by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

To the above-mentioned not enough, the utility model discloses the technical problem that will solve is: the utility model provides an augmented reality glasses has both realized the rotation of display module assembly, has saved the entity button again.

In order to solve the technical problem, the technical scheme of the utility model is that:

the utility model provides an augmented reality glasses, includes the head-mounted support, establishes main part, battery compartment and the display module assembly who wears support one end, still includes: the rotating mechanism is rotatably connected with the main body, and the display module is arranged on the rotating mechanism; the conductive assembly is arranged on the rotating mechanism and comprises a first conductive part and a second conductive part which are conducted through contact, the first conductive part is electrically connected with the main body, and the second conductive part is electrically connected with the battery in the battery bin; the rotating mechanism rotates to drive the first conductive part and the second conductive part to be in contact conduction, and the main body is used for starting up and/or starting up corresponding functions according to the conduction between the first conductive part and the second conductive part; or, the rotating mechanism rotates to drive the first conductive part and the second conductive part to be separated and disconnected, and the main body is used for closing corresponding functions and/or shutting down according to the disconnection between the first conductive part and the second conductive part.

Preferably, the rotating mechanism comprises a rotating structure and a link arm, the display module is arranged at one end of the link arm, and the other end of the link arm is rotatably connected with the main body through the rotating structure.

Preferably, the rotating structure comprises a rotating shaft base arranged on the main body and a rotating shaft fixedly connected with one end of the link arm; the end part of the rotating shaft, which is far away from the link arm, is provided with the first conductive part; the second conductive part is arranged on the rotating shaft base.

Preferably, the first conductive part includes at least two metal contacts, all the metal contacts are arranged at intervals, and each metal contact is electrically connected with the main body; the second conductive part is a metal groove; and rotating the link arm, driving the rotating shaft to rotate by the link arm, and driving each metal contact on the end part to be contacted with or separated from the metal groove by the rotating shaft.

Preferably, a main board is arranged in the main body, a main control chip and a power supply end which are electrically connected are arranged on the main board, and the main control chip is electrically connected with the display module; the power supply end is electrically connected with one of the metal contacts, the metal contact is conducted with the metal groove, and the main control chip is started and/or starts corresponding functions; the main control chip is electrically connected with other metal contacts and is used for starting corresponding functions according to the conducting or disconnecting state of each metal contact and the metal groove.

Preferably, the first conductive part includes two metal contacts, and a distance between the two metal contacts is smaller than a length of the metal groove.

Preferably, the two metal contacts are respectively defined as a first metal contact and a second metal contact, the first metal contact is electrically connected with the power supply end, and the second metal contact is electrically connected with the main control chip.

Preferably, the mainboard is further provided with an audio unit electrically connected with the main control chip.

Preferably, when the first metal contact and the second metal contact are disconnected from the metal groove, the main body is shut down; the first metal contact is communicated with the metal groove, and when the second metal contact is disconnected with the metal groove, the main control chip is started and/or the audio unit is started; when the first metal contact and the second metal contact are both in contact conduction with the metal groove, the main control chip starts the display module.

Preferably, at least three positioning structures are arranged between the rotating shaft and the rotating shaft base, wherein one positioning structure is arranged at 0 degrees in an initial state, the other positioning structure is arranged at 45 degrees, and the third positioning structure is arranged at 90 degrees;

when the link arm is at 0 degrees, the first metal contact and the second metal contact are disconnected with the metal groove, and the main body is shut down; when the link arm rotates to 45 degrees, the first metal contact is conducted with the metal groove, the second metal contact is disconnected with the metal groove, and the main control chip is started and/or the audio unit is started; when the link arm rotates to 90 degrees, the first metal contact and the second metal contact are both in contact conduction with the metal groove, and the main control chip starts the display module.

After the technical scheme is adopted, the beneficial effects of the utility model are that:

because the utility model discloses an augmented reality glasses, including wearing the support, the main part, the battery compartment, the display module assembly, slewing mechanism and establish the conductive component on slewing mechanism, wherein slewing mechanism and main part rotate to be connected, and set up the display module assembly on the slewing mechanism, wherein the conductive component includes first conductive part and the second conductive part that switches on through the contact, first conductive part is connected with the main part electricity, the second conductive part is connected with the battery electricity in the battery compartment; when the rotating mechanism rotates, the first conductive part and the second conductive part are driven to be in contact conduction, and the main body starts up and/or starts corresponding functions according to the conduction between the first conductive part and the second conductive part; or the rotating mechanism rotates to drive the first conductive part and the second conductive part to be separated and disconnected, and the main body closes corresponding functions and/or shuts down according to the disconnection between the first conductive part and the second conductive part. It can be seen that the utility model discloses an augmented reality glasses had both realized display module assembly's rotation, had saved the entity button again.

Because slewing mechanism includes rotating-structure and pitman arm, the one end of pitman arm sets up display module assembly, and the other end of pitman arm passes through rotating-structure and is connected with the main part rotation, and it is rotatory to drive display module assembly and rotating-structure through rotating the pitman arm, and rotating-structure's rotation has realized the switching of conducting component on-state, and then has realized the main part state switching.

Since the first conductive part comprises two metal contacts, the distance between the two metal contacts is less than the length of the metal groove, so as to ensure that the two metal contacts and the metal groove have different on and off states.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic structural view of a rotating shaft provided with a first conductive member;

FIG. 3 is a schematic structural view of a shaft base provided with a second conductive member;

in the figure: 1-head-mounted support, 2-main body, 3-battery compartment, 4-link arm, 5-rotating shaft, 6-display module, 7-rotating shaft base, 8-first conductive component, 80-first metal contact, 82-second metal contact, 9-second conductive component and 10-rotating mechanism.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1, 2 and 3, an augmented reality glasses includes a head-mounted support 1, a main body 2 disposed at one end of the head-mounted support 1, a battery compartment 3, a display module 6 electrically connected to the main body 2, a rotating mechanism 10, and a conductive component disposed on the rotating mechanism 10, in this case, the battery compartment 3 is disposed at the other end of the head-mounted support 1, and of course, the battery compartment 3 may be disposed at other positions of the head-mounted support 1. Wherein the rotating mechanism 10 is rotatably connected with the main body 2, and the display module 6 is arranged on the rotating mechanism 10; wherein the conductive component comprises a first conductive component 8 and a second conductive component 9 which are conducted through contact, the first conductive component 8 is electrically connected with the main body 2, and the second conductive component 9 is electrically connected with the battery in the battery compartment 3; the rotating mechanism 10 rotates to drive the first conductive part 8 and the second conductive part 9 to be in contact conduction, the main body 2 is started and/or started with corresponding functions according to the conduction state between the first conductive part 8 and the second conductive part 9, or the rotating mechanism 10 rotates to drive the first conductive part 8 and the second conductive part 9 to be separated and disconnected, and the main body 2 is closed with corresponding functions and/or shut down according to the disconnection state between the first conductive part 8 and the second conductive part 9, so that different states are switched. It can be seen that the utility model discloses an augmented reality glasses had both realized display module assembly's rotation, had saved the entity button again, had eliminated cancellation entity button and had leaded to the problem that the energy consumption is high, had satisfied multiple user demand.

As shown in fig. 1, 2 and 3, the rotating mechanism 10 includes a rotating structure and a link arm 4, one end of the link arm 4 is provided with the display module 6, and the other end of the link arm 4 is rotatably connected to the main body 2 through the rotating structure. The rotating structure in this example comprises a rotating shaft base 7 arranged on the main body 2 and a rotating shaft 5 fixedly connected with one end of the link arm 4, and a first conductive part 8 is arranged on the end part of the rotating shaft 5 departing from the link arm 4; the second conductive member 9 is provided on the shaft base 7. When the link arm 4 is rotated, the display module 6 at the end of the link arm 4 rotates, the link arm 4 rotates and simultaneously drives the rotating shaft 5 to rotate relative to the rotating shaft base 7, and the rotating shaft 5 drives the first conductive component 8 at the end to rotate so as to be in contact with or separate from the second conductive component 9, so that switching between on and off states is realized. Of course, the rotating mechanism 10 is not limited to the above-understood structure, as long as it can drive the display module 6 to rotate and drive the conductive component to switch between the on state and the off state.

A main board is arranged in the main body 2, a main control chip and a power supply end which are electrically connected are arranged on the main board, and the main control chip is electrically connected with the display module 6; the main board is also provided with an audio unit electrically connected with the main control chip; then, initiating the corresponding function includes initiating an audio function. Of course, other functional units are provided on the main board, and the main body 2 can activate other functions according to the on and off between the first conductive member 8 and the second conductive member 9. The main control chip can be but is not limited to STM32F10 series single chip microcomputer.

As shown in fig. 1 and 2, the first conductive component 8 includes at least two metal contacts, all of which are arranged at intervals and are electrically connected with the main body 2 respectively; the second conductive part 9 is, but not limited to, a metal groove; and when the link arm 4 is rotated, the link arm 4 drives the rotating shaft 5 to rotate, and the metal contacts are contacted with or separated from the metal grooves along with the rotation of the rotating shaft 5.

In this example, the first conductive part 8 comprises two metal contacts, and the distance between the two metal contacts is smaller than the length of the metal groove, and the length ensures that the two metal contacts can be simultaneously in contact conduction with the metal groove. The two metal contacts are respectively defined as a first metal contact 80 and a second metal contact 82, the first metal contact 80 is electrically connected with a power supply end, and the second metal contact 82 is electrically connected with the main control chip (the second metal contact 82 is connected with one port of the main control chip, so that the main control chip can identify the conduction and disconnection between the main control chip and the metal groove); the two metal contacts are arranged along the rotation direction of the rotating shaft 5, and the first metal contact 80 is arranged close to the metal groove, so that the first metal contact 80 can be firstly contacted and conducted with the metal groove.

In an initial state, when the first metal contact 80 and the second metal contact 82 are both separated from the metal groove, at this time, the power supply end is not conducted with the battery, and the main body 2 is in a shutdown state; rotating the link arm 4 to make the first metal contact 80 and the metal groove in contact and conduction, and the second metal contact 82 and the metal groove in separation and disconnection, at this time, the main control chip starts up and/or starts the audio unit, namely, starts the audio function; the link arm 4 is rotated continuously, the first metal contact 80 and the second metal contact 82 are both in contact conduction with the metal groove, the display module 6 is started after the port of the main control chip identifies the conduction state of the second metal contact 82, the display module 6 is made to be put into use, and at the moment, the main body 2 simultaneously starts the display module 6 and the audio unit, and other functions can be started naturally. It can be seen that the present embodiment enables the main body to switch the working state by the on and off states between the first metal contact 80 and the second metal contact 82 and the metal groove.

At least three positioning structures can be arranged between the rotating shaft 5 and the rotating shaft base 7 of the utility model, in the embodiment, three positioning structures are arranged, wherein one positioning structure is arranged at 0 degree in the initial state, the other positioning structure is arranged at 45 degrees, and the third positioning structure is arranged at 90 degrees; each positioning structure can be, but is not limited to, a damping protrusion arranged on the rotating shaft base 7, and after the rotating shaft 5 rotates to the damping protrusion, the rotating shaft is positioned, cannot rotate randomly under the condition of no external force, and can continue to rotate under the action of the external force by overcoming the damping protrusion.

When the link arm 4 is at 0 ° (the link arm is coincident with the main body), the first metal contact 80 and the second metal contact 82 are both separated from the metal groove, at this time, the battery does not supply power to the main body 2, and the main body 2 is in a shutdown state; when the link arm 4 rotates to 45 degrees, the first metal contact 80 is in contact conduction with the metal groove, the second metal contact 82 is separated from the metal groove and disconnected, the battery is in conduction with the power supply end, namely the battery supplies power to the main body 2, the main body 2 is started, the main control chip starts the audio unit, namely the main body 2 is in a starting state and an audio function starting state at the moment; when the link arm 4 rotates to 90 degrees, the first metal contact 80 and the second metal contact 82 are both in contact conduction with the metal groove, the port of the main control chip collects the voltage change of the second metal contact 82, the main control chip starts the display module 6, and at the moment, the main body 2 is in a starting state, an audio function starting state and a display function starting state.

When the use is finished, the link arm 4 rotates, and the main body closes the display module 6, closes the audio unit and shuts down according to the states of the first metal contact 80 and the second metal contact 82 which are connected with and disconnected from the metal grooves.

To sum up, the utility model discloses an augmented reality glasses through setting up slewing mechanism, has realized the rotation of display module assembly, has realized switching on and off state of conductive parts, makes the main part according to conductive parts's switching on and off state, goes to switch operating condition, opens the start-up and the closing of shutdown, corresponding function promptly, has saved the entity button.

The above-mentioned preferred embodiments of the present invention are not intended to limit the present invention, and any modifications made within the spirit and principles of the present invention, including the improvement of augmented reality glasses, should be included within the scope of the present invention.

Claims (10)

1. The utility model provides an augmented reality glasses, includes the head-mounted support, establishes main part, battery compartment and the display module assembly who wears support one end, its characterized in that still includes:

the rotating mechanism is rotatably connected with the main body, and the display module is arranged on the rotating mechanism;

the conductive assembly is arranged on the rotating mechanism and comprises a first conductive part and a second conductive part which are conducted through contact, the first conductive part is electrically connected with the main body, and the second conductive part is electrically connected with the battery in the battery bin;

the rotating mechanism rotates to drive the first conductive part and the second conductive part to be in contact conduction, and the main body is used for starting up and/or starting up corresponding functions according to the conduction between the first conductive part and the second conductive part; or the like, or, alternatively,

the rotating mechanism rotates to drive the first conductive part and the second conductive part to be separated and disconnected, and the main body is used for closing corresponding functions and/or shutting down according to the disconnection between the first conductive part and the second conductive part.

2. The augmented reality glasses of claim 1, wherein the rotating mechanism comprises a rotating structure and a link arm, the display module is disposed at one end of the link arm, and the other end of the link arm is rotatably connected to the main body through the rotating structure.

3. The augmented reality glasses of claim 2, wherein the rotation structure comprises a rotation shaft base arranged on the main body and a rotation shaft fixedly connected with one end of the link arm;

the end part of the rotating shaft, which is far away from the link arm, is provided with the first conductive part;

the second conductive part is arranged on the rotating shaft base.

4. Augmented reality glasses according to claim 3,

the first conductive part comprises at least two metal contacts, all the metal contacts are arranged at intervals, and each metal contact is electrically connected with the main body respectively;

the second conductive part is a metal groove;

and rotating the link arm, driving the rotating shaft to rotate by the link arm, and driving each metal contact on the end part to be contacted with or separated from the metal groove by the rotating shaft.

5. The augmented reality glasses according to claim 4, wherein a main board is arranged in the main body, a main control chip and a power supply end which are electrically connected are arranged on the main board, and the main control chip is electrically connected with the display module;

the power supply end is electrically connected with one of the metal contacts, the metal contact is conducted with the metal groove, and the main control chip is started and/or starts corresponding functions;

the main control chip is electrically connected with other metal contacts and is used for starting corresponding functions according to the conducting or disconnecting state of each metal contact and the metal groove.

6. The augmented reality glasses of claim 5, wherein the first conductive component comprises two of the metal contacts, a distance between the two metal contacts being less than a length of the metal groove.

7. The augmented reality glasses of claim 6 wherein the two metal contacts are respectively defined as a first metal contact and a second metal contact, the first metal contact is electrically connected to the power source terminal, and the second metal contact is electrically connected to the main control chip.

8. The augmented reality glasses of claim 7, wherein the main board further comprises an audio unit electrically connected to the main control chip.

9. Augmented reality glasses according to claim 8,

when the first metal contact and the second metal contact are disconnected with the metal groove, the main body is shut down;

the first metal contact is communicated with the metal groove, and when the second metal contact is disconnected with the metal groove, the main control chip is started and/or the audio unit is started;

when the first metal contact and the second metal contact are both in contact conduction with the metal groove, the main control chip starts the display module.

10. The augmented reality glasses of claim 9 wherein at least three positioning structures are disposed between the shaft and the shaft base, wherein one positioning structure is disposed at 0 ° in the initial state, another positioning structure is disposed at 45 ° and a third positioning structure is disposed at 90 °;

when the link arm is at 0 degrees, the first metal contact and the second metal contact are disconnected with the metal groove, and the main body is shut down;

when the link arm rotates to 45 degrees, the first metal contact is conducted with the metal groove, the second metal contact is disconnected with the metal groove, and the main control chip is started and/or the audio unit is started;

when the link arm rotates to 90 degrees, the first metal contact and the second metal contact are both in contact conduction with the metal groove, and the main control chip starts the display module.

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