CN209946534U - Industry auxiliary type AR glasses - Google Patents

Abstract

The embodiment of the utility model provides a wearing equipment technical field discloses an industry auxiliary type AR glasses for detect technical field is related to. The utility model discloses in, industry auxiliary type AR glasses include: mirror holder, setting are in ray apparatus subassembly on the mirror holder, with the controller that ray apparatus subassembly links to each other, and detachably sets up ray filter on the mirror holder, the ray filter with ray apparatus subassembly is just to setting up, just the ray filter sets up ray apparatus subassembly thing side. The utility model provides an industry auxiliary type AR glasses can improve the display effect of industry auxiliary type AR glasses.

Description

Industry auxiliary type AR glasses

Technical Field

The embodiment of the utility model provides a wearing equipment technical field, in particular to be applied to and detect technical field's supplementary formula AR glasses of industry.

Background

Ar (augmented reality) is an augmented reality technology that adds a layer of virtual image information between a physical object observable by the naked eye and the eye, thereby forming a real-time interaction with the user. With the development of science and technology, wearable equipment is more and more favored by people, especially in the aspect of intelligent glasses, has irreplaceable effect in aspects such as liberation both hands, near-to-eye display, Augmented Reality (AR). In industrial practical application, the existing industrial auxiliary type AR glasses comprise a glasses frame, an optical-mechanical assembly arranged on the glasses frame and a controller connected with the optical-mechanical assembly.

The inventor finds that at least the following problems exist in the prior art: the display effect of the existing industrial auxiliary AR glasses is greatly influenced by ambient light, and the display effect is poor. Therefore, there is a need to provide a new structure of industrial auxiliary AR glasses to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

An object of the embodiment of the utility model is to provide an industry auxiliary type AR glasses can improve the display effect of industry auxiliary type AR glasses.

In order to solve the above technical problem, an embodiment of the utility model provides an industry auxiliary type AR glasses, include: mirror holder, setting are in ray apparatus subassembly on the mirror holder, with the controller that ray apparatus subassembly links to each other, and detachably sets up ray filter on the mirror holder, the ray filter with ray apparatus subassembly is just to setting up, just the ray filter sets up ray apparatus subassembly thing side.

Compared with the prior art, the optical filter and the optical-mechanical assembly are arranged just opposite to each other, and the optical filter is arranged on the object side of the optical-mechanical assembly, so that the brightness of ambient light can be reduced, the problem that the displayed image is not clear due to over-bright ambient light is avoided, the image display definition of the optical-mechanical assembly is improved, and the display effect is improved; in addition, the filter lens is detachably arranged on the mirror bracket, so that in the actual use process, when the ambient light is dark, the filter lens can be detached from the mirror bracket, a user can see the field object clearly, and the convenience and the safety of the field object operation are improved; simultaneously, the optical filter can play the effect of physical protection to the ray apparatus subassembly, has avoided the ray apparatus subassembly to receive external damage in the use.

In addition, still be provided with the camera that is used for detecting the object of waiting to discern on the mirror holder, the camera with the controller links to each other. Can detect through the camera and wait to discern the object to the controller can be according to waiting to discern the object that detects, control ray apparatus subassembly and show the image that corresponds with waiting to discern the object, has improved user experience.

In addition, still include the light filling device that is used for waiting to discern the object light filling, the light filling device sets up on the mirror holder. So set up, under the dim light condition, the light filling device can treat the discernment object and carry out the light filling to be favorable to treating the discernment object's discernment, and the workman treats the discernment object and carries out the operation.

In addition, the mirror holder is including being used for fixing the picture frame of ray apparatus subassembly and with the mirror leg that the picture frame links to each other, the picture frame is kept away from filter glass one side is provided with the adsorption equipment who is used for adsorbing the myopia lens. The adsorption and fixation of the myopia lens can be conveniently realized through the adsorption device, so that the myopia lens is favorable for surveying the operation site by a user suffering from myopia.

In addition, the adsorption device is a magnet.

In addition, the frame is detachably provided with a myopia lens, and the myopia lens is arranged on the frame through the adsorption device.

In addition, one side of the adsorption device, which is far away from the mirror frame, is provided with protective foam. So set up, can improve the myopia lens because of colliding with adsorption equipment or picture frame and the damaged condition, improved the reliability of industry auxiliary type AR glasses.

In addition, an angle sensor is further arranged on the mirror bracket and connected with the controller. The angle sensor can be used for collecting the rotation angle of the head of a human body, so that the optical mechanical assembly can adjust a display picture according to the rotation angle of the head of the human body, and the picture displayed by the optical mechanical assembly can be in angle matching with the picture observed by human eyes better.

In addition, still be provided with the bluetooth device on the mirror holder, the bluetooth device with the controller links to each other. The rotation angle of the human head collected by the angle sensor can be transmitted to external equipment through the Bluetooth module, and response information returned by the external equipment is received, so that display content corresponding to the rotation angle of the human head can be acquired by the external equipment.

In addition, still be provided with the microphone that is used for gathering audio information on the mirror holder, the microphone with the controller links to each other.

Drawings

Fig. 1 is an exploded view of industrial auxiliary AR glasses according to an embodiment of the present invention;

fig. 2 is a schematic perspective view of an industrial auxiliary AR glasses according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the following will explain in detail each embodiment of the present invention with reference to the accompanying drawings. However, it will be appreciated by those of ordinary skill in the art that in various embodiments of the invention, numerous technical details are set forth in order to provide a better understanding of the present application. However, the technical solution claimed in the present application can be implemented without these technical details and various changes and modifications based on the following embodiments.

The first embodiment of the present invention relates to an industrial auxiliary AR glasses 100, as shown in fig. 1 and 2, including: the mirror bracket 11, the optical-mechanical assembly 12 arranged on the mirror bracket 11, the controller 13 connected with the optical-mechanical assembly 12, and the filter 14 detachably arranged on the mirror bracket 11, wherein the filter 14 is opposite to the optical-mechanical assembly 12, and the filter 14 is arranged on the object side of the optical-mechanical assembly 12.

Compared with the prior art, the embodiment of the present invention is that the optical filter 14 is disposed opposite to the optical-mechanical assembly 12, and the optical filter 14 is disposed on the object side of the optical-mechanical assembly 12 (when the industrial auxiliary AR glasses 100 are worn, the object side is the side away from the eyes of the wearer), so as to reduce the brightness of the ambient light, avoid the problem that the displayed image is not clear due to the over-brightness of the ambient light, improve the image display definition of the optical-mechanical assembly 12, and improve the display effect; moreover, because the filter 14 is detachably arranged on the mirror bracket 11, in the actual use process, when the ambient light is dark, the filter 14 can be detached from the mirror bracket 11, so that a user can see the field object clearly, and the convenience and the safety of the field object operation are improved; meanwhile, the optical filter 14 can physically protect the optical-mechanical assembly 12, and the optical-mechanical assembly 12 is prevented from being damaged by the outside in the using process.

Specifically speaking, still be provided with camera 15 that is used for detecting the object of waiting to discern on mirror holder 11, camera 15 links to each other with controller 13, can detect the object of waiting to discern through camera 15 to controller 13 can be according to the object of waiting to discern that detects, control ray apparatus subassembly 12 and show the image that corresponds with the object of waiting to discern, has improved user experience.

It is worth mentioning, industry auxiliary type AR glasses 100 can also be including being used for giving the light filling device 16 of waiting to discern the object light filling, light filling device 16 sets up on mirror holder 11, can carry out opening and closing that light identification controlled light filling device 16 through shift knob or optical line sensors, wherein, light filling device 16 can be LED lamp module, so set up, under the dim light condition, light filling device 16 can be treated and discerned the object and carry out the light filling, thereby be favorable to waiting to discern the discernment of object, and the workman treats discernment object and carries out the operation.

In practical application, camera 15 and light filling device 16 distribute in the left and right sides of glasses, and the symmetry is pleasing to the eye in the outward appearance, and structural rational distribution helps when wearing both sides balanced. Optionally, ray apparatus subassembly 12 is including controlling two parts, respectively be provided with a drive plate about the ray apparatus subassembly two parts, carry out image display for the drive ray apparatus subassembly, drive camera 15 detects and treats discernment object, and drive LED lamp module carries out the light filling, it is further, independent plate is made to two drive plates, the centre uses the FPC line to connect, also use twice folding FPC line to connect between folding drive plate and the controller 13, two drive plates fold up during the installation, very big reduction the space occupation rate, the aesthetic measure of outward appearance has been improved.

Specifically, the frame 11 includes a frame 111 for fixing the optical-mechanical assembly 12, and a temple 112 connected to the frame 111, the frame 111 is provided with a suction device (not shown) for sucking a myopic lens 17 (which may be the myopic lens 17 or a presbyopic lens) on a side away from the filter 14, wherein, the adsorption device can be a magnet, a sucker, etc., in the embodiment, the upper end of the frame 111 is provided with four magnet grooves, each magnet groove is additionally provided with a magnet, a monocular independent suction way is adopted, a wearer can select a corresponding myopia lens 17 to use according to the actual demand of the wearer, furthermore, the frame 111 is detachably provided with the myopia lens 17, the myopia lens 17 is arranged on the frame 111 through the adsorption device, the adsorption and fixation of the myopia lens 17 can be conveniently realized through the adsorption device, so that the myopia lens is favorable for surveying the operation site by a user suffering from myopia.

Optionally, the adsorption device is provided with the protection foam 18 on the side away from the frame 111, and the protection foam 18 can play a role in buffering, so that the situation that the myopia lenses 17 are damaged due to collision with the adsorption device or the frame 111 can be improved, and the reliability of the industrial auxiliary AR glasses 100 is improved. Further, be provided with the recess around and fixed ray apparatus subassembly 12 on the picture frame 111, also can fill the protection bubble cotton in the middle of the recess, the protection bubble cotton can play the effect of buffering to improve the condition that ray apparatus subassembly 12 received external force and damaged.

In the embodiment, the anti-slip rubber 19 is arranged on the surface of the bent part at the rear part of the glasses leg 112, so that the anti-slip rubber 19 is tightly attached to the rear part of the ear of a user when the user wears the glasses, the wearing tightness is improved, and the glasses are prevented from slipping off in the using process.

It should be mentioned that, the mirror holder 11 is further provided with an angle sensor 20, the angle sensor 20 is connected to the controller 13, the angle sensor 20 can be a nine-axis posture sensor (or a six-axis posture sensor, a three-axis posture sensor, etc.), the angle sensor 20 can collect the rotation angle of the head of the human body, the controller 13 adjusts the display picture of the optical mechanical assembly 12 according to the rotation angle of the head of the human body, so that the picture displayed by the optical mechanical assembly 12 can be better angle-matched with the picture observed by human eyes, the display scene is better matched with the rotation of the head of the human body, and the characteristics of the head of the human body can be.

It can be understood that, can also be provided with bluetooth device 21 on mirror holder 11, bluetooth device 21 links to each other with controller 13, bluetooth device 21 can directly link to each other with angle sensor 20, also can link to each other with angle sensor 20 indirectly through controller 13, the rotation angle of the human head that can gather angle sensor 20 through bluetooth module transmits to external equipment, external equipment adjusts the gesture (place the angle) of model according to people's head activity, and return response information, directly send for optical-mechanical component 12 behind the message of bluetooth receiving terminal passback, or send to optical-mechanical component 12 via controller 13, thereby optical-mechanical component 12 can utilize external equipment to acquire the display content that corresponds with the rotation angle of human head, make the display scene of optical-mechanical component 12 more match the rotation of human head, look characteristics in pitch.

Optionally, a microphone for collecting audio information may be further disposed on the glasses frame 11, and the microphone is connected to the controller 13, so that voice control of the industrial auxiliary AR glasses 100 is realized, hands do not need to be vacated to operate the AR glasses, and convenience is improved.

It should be noted that the mirror holder 11 may further be provided with a control switch 22, and the control switch 22 may be used to control the display brightness of the optical mechanical assembly 12, and/or be used to control the optical mechanical assembly 12 to switch between monocular display and binocular display, and/or turn on and off the light supplement device 16, so as to reduce power consumption and prolong the standby time.

In this embodiment, the middle portion of the frame 111 may be screwed with a detachable adjustable nose pad 23, and the nose pad 23 may be selectively installed and adjusted according to different nose types of people, so that the industrial auxiliary AR glasses 100 are more comfortable to wear.

Optionally, a Type-c interface 24 (which may also be another interface such as a Type-a interface or a Type-b interface) is further disposed at the rear end of the temple 112, and the entire system is connected to the Type-c interface 24, so as to supply power to the entire system and maintain the operation of the entire system.

It will be understood by those skilled in the art that the foregoing embodiments are specific examples of the invention, and that various changes in form and details may be made therein without departing from the spirit and scope of the invention in its practical application.

Claims (10)

1. An industry-assisted AR eyewear, comprising: mirror holder, setting are in ray apparatus subassembly on the mirror holder, and with the controller that ray apparatus subassembly links to each other, its characterized in that still includes detachably and sets up ray filtering lens on the mirror holder, the ray filtering lens with ray apparatus subassembly is just to setting up, just the ray filtering lens sets up the ray apparatus subassembly thing side.

2. The industrial auxiliary AR glasses according to claim 1, wherein a camera for detecting an object to be identified is further disposed on the frame, and the camera is connected to the controller.

3. The industrial auxiliary type AR glasses according to claim 2, further comprising a light supplement device for supplementing light to an object to be recognized, wherein the light supplement device is disposed on the glasses frame.

4. The industrial auxiliary AR glasses according to claim 1, wherein the frame comprises a frame for fixing the optical-mechanical assembly, and a temple connected to the frame, and an absorption device for absorbing a near-sighted lens is disposed on a side of the frame away from the filter.

5. The industrial assisted AR eyewear of claim 4, wherein the attachment device is a magnet.

6. The industrial assisted AR glasses of claim 4 wherein a myopic lens is removably disposed on the frame via the suction device.

7. The industrial assisted AR eyewear of claim 4, wherein the suction device is provided with a protective foam on a side away from the frame.

8. The industrial assisted AR eyewear of claim 1, further comprising an angle sensor disposed on the frame, the angle sensor coupled to the controller.

9. The industrial auxiliary AR glasses according to claim 8, wherein the frame further comprises a bluetooth device, and the bluetooth device is connected to the controller.

10. The industrial assisted AR glasses of claim 1, wherein a microphone for collecting audio information is further disposed on the frame, and the microphone is connected to the controller.

Images