CN114236847B - AR glasses with novel glasses legs - Google Patents

Abstract

The invention discloses AR (augmented reality) glasses with novel glasses legs, and relates to the field of AR glasses. The pair of glasses comprises an AR (augmented reality) glasses body and clamping type glasses legs, wherein the clamping type glasses legs are arranged on the AR glasses body and at least comprise glasses legs and wearing clamping driving mechanisms arranged between the AR glasses body and the glasses legs, the glasses legs are symmetrically arranged in two groups at two sides of the AR glasses body, the two groups of glasses legs are enabled to swing oppositely through wearing the clamping driving mechanisms so as to conduct clamping action, and then the two groups of glasses legs clamp the head of a human body so as to support the AR glasses body; the side of each glasses leg, which faces the head of the human body, is provided with a veneering supporting bulge, and after the two glasses legs clamp the head of the human body, the veneering supporting bulges are attached to the temples of the head of the human body; and the auxiliary adjusting mechanism for the glasses position is worn on the head of a human body, and the glasses position is rotated by taking the veneering supporting bulge as a rotation circle center through the driving glasses legs and the AR glasses body so as to be separated from the bridge of the nose of the head of the human body when the AR glasses body is worn.

Description

AR glasses with novel glasses legs

Technical Field

The invention relates to the technical field of AR (augmented reality) glasses, in particular to AR glasses with novel glasses legs.

Background

The AR glasses can realize a plurality of functions, can be regarded as a miniature mobile phone, judge the state of a user by tracking the eye sight track, and can start corresponding functions. LCOS is also called silicon-based liquid crystal, it is a brand new digital imaging technology, it is more suitable for being applied to AR glasses, it uses semiconductor CMOS integrated circuit chip as the substrate of the reflective LCD, coat a thin layer of liquid crystal silicon on the CMOS chip, the control circuit is placed behind display device, can improve the light utilization rate, thus realize the greater light output and higher resolution ratio.

The existing AR glasses generally have the appearance of the conventional glasses, and the existing AR glasses are usually hung on the head of a human body. However, the existing AR glasses are generally heavy in main body parts of the AR glasses, and need to be mounted at the position of the nose bridge, so that the glasses legs of the ordinary glasses can not be clamped and the main body of the AR glasses can not be stably supported, the AR glasses can not be worn firmly enough, moreover, the AR glasses are heavy, the pressure on the nose bridge is large when the AR glasses are worn, the AR glasses can not be worn for a long time, the AR glasses experience feeling is poor, the condition is improved, and the AR glasses with the novel glasses legs need to be designed.

Disclosure of Invention

The present invention is to solve the above-mentioned problems, and provides AR glasses having a novel temple.

In order to solve the technical problems, the technical scheme of the invention is as follows:

the AR glasses with the novel glasses legs comprise AR glasses bodies and clamping type glasses legs, wherein the clamping type glasses legs are arranged on the AR glasses bodies and at least comprise the glasses legs and a clamping driving mechanism arranged between the AR glasses bodies and the glasses legs, the glasses legs are symmetrically arranged in two groups on two sides of the AR glasses bodies, the two groups of the glasses legs swing oppositely to perform clamping action by wearing the clamping driving mechanism, and then the two groups of the glasses legs clamp the human head to support the AR glasses bodies;

the side of each glasses leg, which faces the head of the human body, is provided with a veneering supporting bulge, and after the two groups of glasses legs clamp the head of the human body, the veneering supporting bulges are attached to the temples of the head of the human body;

and the auxiliary adjusting mechanism for the glasses position is worn on the head of a human body to drive the glasses legs and the AR glasses body to rotate by taking the veneering supporting bulge as a rotation circle center, so that the AR glasses body is separated from the bridge of the nose of the head of the human body when worn.

Preferably, the wearable clamp driving mechanism includes:

the mounting shell is hinged to the AR glasses body at one end;

one end of the rotating column is fixedly connected to one end, close to the mounting shell, of the glasses leg, and the other end of the rotating column extends into the mounting shell and is in rotating connection with the mounting shell through a bearing;

a drive mechanism provided on the mounting case;

and the transmission mechanism is arranged between the driving mechanism and the rotating column, and drives the rotating column to rotate and then the glasses legs to rotate through the driving mechanism under the transmission of the transmission mechanism.

Preferably, the installation casing has two rotation limit angle, and one is the perpendicular to be first rotation limit angle during the angle of AR glasses body, its second with first rotation limit angle position orientation AR glasses body's direction rotate to with AR glasses body is second rotation limit angle during the state that is parallel to each other, first rotation limit angle position with second rotation limit angle position contained angle is 90.

Preferably, the drive mechanism includes:

one end of the first bolt extends into the mounting shell and is rotatably connected with the mounting shell through a bearing, and a first rotating head is arranged at one end of the first bolt extending out of the mounting shell;

and the first nut pair is positioned in the mounting shell, coaxially arranged on the first bolt and in threaded fit with the first bolt.

Preferably, the transmission mechanism includes:

the gear is coaxially connected to one end, extending into the mounting shell, of the rotating column;

the rack is connected to the first nut pair and meshed with the gear;

the guide sliding groove is formed in the inner wall of the mounting shell and is parallel to the extending direction of the axis of the first bolt;

and the guide sliding block is connected to the rack and slides in the guide sliding groove.

Preferably, the eyeglass position assisting adjustment mechanism includes:

a head wearing mechanism to be worn on a head of a human body;

the rear supporting plate is fixedly connected to the head wearing mechanism and is attached to the back brain part of the head of the human body when the head wearing mechanism is worn on the head of the human body;

the glasses leg connecting mechanism is used for being fixedly connected with one end, opposite to the AR glasses body, of the glasses leg;

and the adjusting mechanism is arranged on the rear supporting plate and used for driving the glasses leg connecting mechanism to move so that the glasses leg connecting mechanism drives the glasses legs to rotate.

Preferably, the head-wearing mechanism includes:

a head band which can be tightened on the head;

and a top band connected to the headband and capable of preventing the headband from sliding down from the head by pressing a crown against the top band;

the upper end of the back supporting plate is connected to the head hoop.

Preferably, the mirror leg coupling mechanism is two sets of that the structure is the same and with two sets of one-to-one sets between the mirror leg, mirror leg coupling mechanism includes:

moving the plate;

one end of the connecting block is hinged to the moving plate;

the accommodating notch is formed in the connecting block and is opposite to one end face of the moving plate, and one end, opposite to the AR glasses body, of each glasses leg can extend into the accommodating notch;

and the fastening bolt is arranged on the connecting block and extends into the accommodating notch, and the glasses legs extending into the accommodating notch are tightly jacked through the fastening bolt.

Preferably, the adjusting mechanism includes:

the second bolt is rotatably connected to the side surface, opposite to the side where the hindbrain part of the head of the human body is located, of the rear supporting plate through a bearing;

the second nut pair is coaxially arranged on the second bolt and is in threaded fit with the second bolt;

the longitudinal openings are two groups with the same structure and are symmetrically arranged on the rear supporting plate, and the longitudinal openings and the second bolts are longitudinally arranged in parallel;

the center of the horizontal connecting plate is fixedly connected with the second nut pair;

and the moving blocks slide in the longitudinal openings, the moving blocks are two groups with the same structure and are arranged in one-to-one correspondence with the two groups of longitudinal openings, one end of each moving block is connected to the corresponding moving plate, and the other end of each moving block is connected to the horizontal connecting plate.

Preferably, the glasses fixing mechanism is further included for fixing glasses for myopia, and the glasses fixing mechanism includes:

the spectacle frame accommodating groove is arranged on one side of the AR spectacle body facing the eyes and used for accommodating a spectacle frame of the myopia spectacles;

and a glasses leg supporting groove which is arranged on the veneering supporting bulge and is used for supporting the glasses legs of the myopia glasses.

The invention has the following beneficial effects:

according to the AR glasses with the novel glasses legs, the two groups of glasses legs swing oppositely to perform clamping action by wearing the clamping driving mechanism, then the two groups of glasses legs clamp the head of a human body to support the AR glasses body, the AR glasses are worn more stably, meanwhile, when the AR glasses need to be worn for a long time, the glasses position auxiliary adjusting mechanism is utilized, the glasses legs and the AR glasses body are driven to rotate by wearing the AR glasses body on the head of the human body by taking the veneering supporting bulges as rotating centers of circles, so that the AR glasses body is separated from the bridge of the nose of the head of the human body when being worn, the extremely uncomfortable wearing condition caused by the fact that the overweight AR glasses body is pressed on the bridge of the nose for a long time is avoided, the wearing fatigue degree is relieved when the AR glasses are worn for a long time, and the use experience of the AR glasses is improved.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic view of an AR eyeglass with novel temples according to the present invention;

FIG. 2 is a top view of the AR eyeglass body, temple arms and the wearable clip drive of an AR eyeglass with a novel temple arm of the present invention;

FIG. 3 is a schematic view of the drive mechanism of AR eyeglasses with novel temples of the present invention;

FIG. 4 is a schematic view of the drive mechanism of AR eyeglasses with a new temple bar of the present invention;

FIG. 5 is a front view of an adjustment mechanism for AR eyeglasses having a novel temple bar of the present invention;

fig. 6 is a front view of a temple connection of AR glasses with new temples of the present invention.

The reference numerals in the figures denote:

1. an AR eyeglass body; 2. temples; 3. a veneering support projection; 4. installing a shell; 5. rotating the column; 6. a first bolt; 7. a first rotating head; 8. a first nut pair; 9. a gear; 10. a rack; 11. a guide chute; 12. a guide slide block; 13. a rear support plate; 14. a head band; 15. a top belt; 16. moving the plate; 17. connecting blocks; 18. accommodating the notch; 19. fastening a bolt; 20. a second bolt; 21. a second nut pair; 22. a longitudinal opening; 23. a horizontal connecting plate; 24. a moving block; 25. a mirror frame accommodating groove; 26. the temple supports the groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, an AR glasses with novel glasses legs comprises an AR glasses body 1, wherein the AR glasses body 1 is a conventional AR glasses, and further comprises a clip-type glasses leg, which is arranged on the AR glasses body 1, that is, on the basis of having an original main body of the conventional AR glasses, the original glasses leg of the conventional AR glasses is replaced by the clip-type glasses leg in the device, the clip-type glasses leg at least comprises a glasses leg 2 and a wearing clip-driving mechanism arranged between the AR glasses body 1 and the glasses leg 2, the glasses legs 2 are two groups symmetrically arranged at two sides of the AR glasses body 1, the two groups of glasses legs 2 are swung oppositely by wearing the clip-driving mechanism to make a clip action, and then the two groups of glasses legs 2 clip a human head to support the AR glasses body 1;

the side of the glasses legs 2 facing the head of the human body is provided with a veneering supporting bulge 3, and after the two groups of glasses legs 2 clamp the head of the human body, the veneering supporting bulge 3 is attached to the temple position of the head of the human body; at the moment, the clamping force of the two groups of glasses legs 2 is applied to the veneering supporting bulges 3 through the veneering supporting bulges 3;

and the auxiliary adjusting mechanism for the glasses position is worn on the head of a human body, and the auxiliary adjusting mechanism drives the glasses legs 2 and the AR glasses body 1 to rotate by taking the veneering supporting bulge 3 as a rotation circle center, so that the auxiliary adjusting mechanism is separated from the bridge of the nose of the head of the human body when the AR glasses body 1 is worn. That is, at this time, the AR eyeglasses body 1 is suspended above the nose bridge of the head of the human body under the support of the auxiliary eyeglass position adjusting mechanism and the veneering support protrusions 3, so that the nose bridge does not bear the weight of the AR eyeglasses body 1 any more.

To sum up, make two sets of mirror legs swing in opposite directions in order to make the centre gripping action through wearing centre gripping actuating mechanism, then make the human head of two sets of mirror leg centre gripping in order to support AR glasses body, it is more stable to make AR glasses wear, when needing to wear for a long time simultaneously, utilize glasses position to assist guiding mechanism, use drive mirror leg and AR glasses body to support the arch as the rotation centre of a circle with the wainscot, so that break away from human head bridge of the nose position when wearing AR glasses body, avoid pressing the very uncomfortable condition of wearing that leads to at bridge of the nose position for a long time because overweight AR glasses body, and then slow down wearing fatigue degree under wearing for a long time, improve the experience that AR glasses used and feel.

Further, the wearable clamp driving mechanism includes:

a mounting case 4, one end of which is hinged to the AR eyeglass body 1;

one end of the rotating column 5 is fixedly connected to one end, close to the mounting shell 4, of the glasses leg 2, and the other end of the rotating column extends into the mounting shell 4 and is rotatably connected with the mounting shell 4 through a bearing; namely, the glasses legs 2 are rotatably connected on the mounting shell 4 through the rotating columns 5;

a drive mechanism provided on the mounting case 4;

and the transmission mechanism is arranged between the driving mechanism and the rotating column 5, and drives the rotating column 5 to rotate and then drives the glasses legs 2 to rotate through the driving mechanism under the transmission of the transmission mechanism.

Further, the mounting case 4 has two rotation limit angles, one of which is a first rotation limit angle when being perpendicular to the angle of the AR eyeglass body 1, and the other of which is a second rotation limit angle when being rotated to a state parallel to the AR eyeglass body 1 in the direction of the first rotation limit angle position toward the AR eyeglass body 1, and the first rotation limit angle position and the second rotation limit angle position included angle are 90 °. That is, the rotation of the mounting case 4 relative to the AR glasses body 1 is equivalent to the rotation of the temple relative to the frame of the conventional glasses, and the connection mode is equivalent to the connection between the temple and the frame of the conventional glasses, and the specific connection mode is well known by those skilled in the art and is not described herein. Wherein the rotation for AR glasses body 1 of installation casing 4 is in order to enable two sets of mirror legs 2 and can conveniently accomodate, conveniently accomodate like conventional glasses, when satisfying this premise, then drive mirror leg 2 through actuating mechanism and drive mechanism's cooperation rotates, makes mirror leg 2 can possess the function through the human head of centre gripping in order to support AR glasses body 1 then, makes wearing of AR glasses body 1 more firm, and uses and convenient operation.

Further, the drive mechanism includes:

one end of the first bolt 6 extends into the mounting shell 4 and is rotatably connected with the mounting shell 4 through a bearing, and a first rotating head 7 is arranged at one end of the first bolt 6 extending out of the mounting shell 4;

and a first nut pair 8 which is positioned in the mounting shell 4, is coaxially arranged on the first bolt 6 and is in threaded fit with the first bolt 6.

Further, the transmission mechanism includes:

a gear 9 coaxially connected to one end of the rotary column 5 extending into the mounting housing 4;

a rack 10 which is connected to the first nut pair 8 and is meshed with the gear 9;

a guide chute 11 which is opened on the inner wall of the mounting housing 4 and is parallel to the extending direction of the axis of the first bolt 6;

and a guide slider 12 connected to the rack 10 and sliding in the guide chute 11.

Specifically, at first, drive first bolt 6 through first head 7 and rotate, rack 10 that is connected with first nut pair 8 simultaneously passes through guide sliding block 12 and moves along direction runner 11, and make rack 10 unable rotation, then make first nut pair 8 unable rotation, consequently will drive first nut pair 8 and rack 10 connected with it and move along the axis extending direction of first bolt 6 when first bolt 6 rotates, then drive the gear 9 rotation that meshes with rack 10 mutually, then drive and rotate post 5 and rotate, then drive glasses leg 2 and install casing 4 relatively and rotate, then can make two sets of glasses leg 2 swing in order to make the centre gripping action in opposite directions through wearing centre gripping actuating mechanism, then make two sets of glasses leg 2 centre gripping human head in order to support AR glasses body 1, and wherein in the process of rotating first bolt 6, also in step, the centre gripping dynamics of two sets of glasses leg 2 to human head is being adjusted.

Further, the auxiliary adjusting mechanism for adjusting the position of the eyeglasses comprises:

a head wearing mechanism to be worn on a head of a human body;

the back supporting plate 13 is fixedly connected to the head wearing mechanism, and when the head wearing mechanism is worn on the head of a human body, the back supporting plate 13 is attached to the afterbrain part of the head of the human body;

the glasses leg connecting mechanism is used for fixedly connecting one end, opposite to the AR glasses body 1, of the glasses leg 2;

and an adjusting mechanism, which is arranged on the rear support plate 13 and is used for driving the temple connecting mechanism to move so that the temple connecting mechanism drives the temple 2 to rotate.

Further, the head-wearing mechanism includes:

a head band 14 which can be tightened on the head; the head band 14 may be an annular plastic band, the head band 14 may be an annular structure with an opening in the middle, and is mounted at the end position of the opening of the head band 14 by a hook and loop fastener or a buckle, the head band 14 of the annular structure is closed by the hook and loop fastener or the buckle after the head band 14 is looped around the head, and the tightness degree is adjustable to complete the tightening of the head band 14 on the head;

and a top band 15 connected to the head band 14 and capable of preventing the head band 14 from sliding down from the head by making the head top abut on the top band 15, wherein the top band 15 may be a semicircular arc band body crossing the head top in the form of a belt or a cloth band, etc. for being limited on the head top to prevent the head band 14 from sliding down from the head;

the upper end of the rear support plate 13 is connected to the head band 14. That is, the head band 14 plays a role of supporting the rear support plate 13.

Further, mirror leg coupling mechanism is the same two sets of and two sets of mirror legs 2 between the one-to-one setting of structure, mirror leg coupling mechanism includes:

a moving plate 16;

a connecting block 17, one end of which is hinged to the moving plate 16;

the accommodating notch 18 is formed in the connecting block 17 and is opposite to one end face of the moving plate 16, and the accommodating notch 18 can accommodate one end, opposite to the AR glasses body 1, of the glasses leg 2 to stretch into;

and a fastening bolt 19 which is arranged on the connecting block 17, extends into the accommodating notch 18 and abuts against the glasses leg 2 extending into the accommodating notch 18 through the fastening bolt 19.

Specifically, after the clamping force of two sets of mirror legs 2 has been adjusted, connecting block 17 can rotate relative to connecting block 17, and its position is nimble, makes its swing and makes mirror leg 2 get into and hold opening groove 18 after, will make mirror leg 2 top tighten and hold opening groove 18 in through fastening bolt 19 and fix.

Further, the adjustment mechanism includes:

a second bolt 20 rotatably connected to a side surface of the rear support plate 13 opposite to the side where the hindbrain part of the human head is located through a bearing;

a second nut pair 21 coaxially disposed on the second bolt 20 and screw-engaged with the second bolt 20;

the longitudinal openings 22 are two groups with the same structure and are symmetrically arranged on the rear supporting plate 13, and the longitudinal openings 22 and the second bolts 20 are longitudinally arranged in parallel;

the center of the horizontal connecting plate 23 is fixedly connected with the second nut pair 21;

and moving blocks 24 sliding inside the longitudinal openings 22, the moving blocks 24 being two groups of the same structure and being arranged in one-to-one correspondence with the two groups of the longitudinal openings 22, one end of each moving block 24 being connected to the corresponding moving plate 16, and the other end thereof being connected to the horizontal connecting plate 23.

Specifically, because the horizontal connecting plate 23 is connected with the two moving blocks 24, the horizontal connecting plate 23 cannot rotate, and then the second nut pair 21 cannot rotate, after the glasses legs 2 are fixedly connected, the second bolt 20 is rotated to drive the second nut pair 21 to move along the axis extending direction of the second bolt 20, and then the horizontal connecting plate 23, the moving blocks 24 and the moving plate 16 are driven to move, and then the one ends of the glasses legs 2 are driven to move through the connecting block 17, because of the hinged connection between the connecting block 17 and the moving plate 16, and under the driving of wearing the clamping driving mechanism, the two glasses legs 2 clamp the heads of the human bodies, so that the veneering supporting protrusions 3 are stably supported at the temple positions of temples of the heads, and therefore one ends of the glasses legs 2 rotate to drive the glasses legs 2 to rotate with the veneering supporting protrusions 3 as the rotating circle center, and then the glasses legs drive the AR glasses bodies 1 at the other ends of the glasses 2 to rotate along with the glasses bodies until the AR glasses bodies 1 are suspended above the positions of the heads of the human bodies, and the bridge of the glasses no longer enable the bridge of the nose to bear the weights of the glasses bodies 1.

Further, still include myopia glasses fixed establishment, it is used for fixed myopia glasses, can overcome then because the reason of myopia, can't clear away when using AR glasses and watch screen display content, myopia glasses fixed establishment includes:

a frame accommodating groove 25 provided on one side of the AR glasses body 1 facing the eyes for accommodating a frame of the myopic glasses;

and a temple support groove 26 opened on the veneer support projection 3 for supporting the temples of the myopic glasses.

Specifically, after the picture frame that makes spectacles for myopia put into picture frame holding tank 25, the mirror leg support groove 26 on rethread wainscot support protrusion 3 supports spectacles for myopia, then accomplishes the support to glasses, also can wear spectacles for myopia simultaneously when wearing AR glasses afterwards.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications derived therefrom are intended to be within the scope of the invention.

Claims (6)

1. The AR glasses with the novel glasses legs comprise AR glasses bodies (1) and are characterized by further comprising clamping glasses legs, wherein the clamping glasses legs are arranged on the AR glasses bodies (1), the clamping glasses legs at least comprise glasses legs (2) and wearing clamping driving mechanisms arranged between the AR glasses bodies (1) and the glasses legs (2), the glasses legs (2) are symmetrically arranged in two groups on two sides of the AR glasses bodies (1), the two groups of the glasses legs (2) are enabled to swing oppositely through wearing the clamping driving mechanisms to conduct clamping actions, and then the two groups of the glasses legs (2) clamp human heads to support the AR glasses bodies (1);

one side of each of the glasses legs (2) facing the head of the human body is provided with a veneering supporting bulge (3), and the veneering supporting bulges (3) are attached to the temples of the head of the human body after the two groups of glasses legs (2) clamp the head of the human body;

the auxiliary glasses position adjusting mechanism is worn on the head of a human body to drive the glasses legs (2) and the AR glasses body (1) to rotate by taking the veneering supporting bulge (3) as a rotating circle center, so that the AR glasses body (1) is separated from the bridge of the nose of the head of the human body when worn;

the wear grip drive mechanism includes:

the mounting shell (4) is hinged to the AR glasses body (1) at one end;

one end of the rotating column (5) is fixedly connected to one end, close to the mounting shell (4), of the glasses leg (2), the other end of the rotating column extends into the mounting shell (4) and is rotatably connected with the mounting shell (4) through a bearing;

a drive mechanism provided on the mounting case (4);

the transmission mechanism is arranged between the driving mechanism and the rotating column (5) and drives the rotating column (5) to rotate and then drives the glasses legs (2) to rotate through the driving mechanism under the transmission of the transmission mechanism;

the mounting shell (4) is provided with two rotation limit angles, one rotation limit angle is a first rotation limit angle when the angle of the AR glasses body (1) is perpendicular to the mounting shell, the other rotation limit angle is a second rotation limit angle when the AR glasses body (1) rotates in the direction of the first rotation limit angle position facing the AR glasses body (1) to be parallel to the AR glasses body (1), and the included angle between the first rotation limit angle position and the second rotation limit angle position is 90 degrees;

the drive mechanism includes:

one end of the first bolt (6) extends into the mounting shell (4) and is rotatably connected with the mounting shell (4) through a bearing, and a first rotating head (7) is arranged at one end of the first bolt (6) extending out of the mounting shell (4);

and a first nut pair (8) which is positioned in the mounting shell (4), is coaxially arranged on the first bolt (6) and is in threaded fit with the first bolt (6);

the transmission mechanism includes:

the gear (9) is coaxially connected to one end, extending into the mounting shell (4), of the rotating column (5);

a rack (10) which is connected to the first nut pair (8) and is meshed with the gear (9);

the guide sliding groove (11) is formed in the inner wall of the mounting shell (4) and is parallel to the axial extension direction of the first bolt (6);

and a guide slider (12) which is connected to the rack (10) and slides in the guide chute (11).

2. The AR eyeglasses having novel temples as claimed in claim 1, wherein said eyeglass position assisting adjustment mechanism comprises:

a head wearing mechanism to be worn on a head of a human body;

the back supporting plate (13) is fixedly connected to the head wearing mechanism, and when the head wearing mechanism is worn on the head of a human body, the back supporting plate (13) is attached to the hindbrain part of the head of the human body;

the glasses leg connecting mechanism is used for being fixedly connected with one end, opposite to the AR glasses body (1), of the glasses leg (2);

and the adjusting mechanism is arranged on the rear supporting plate (13) and used for driving the glasses leg connecting mechanism to move so that the glasses leg connecting mechanism drives the glasses legs (2) to rotate.

3. The AR glasses with novel temple of claim 2, wherein said head-worn mechanism comprises:

a head band (14) which can be tightened on the head;

and a head band (15) connected to the head band (14) and capable of preventing the head band (14) from sliding down from the head by abutting the head against the head band (15);

the upper end part of the rear supporting plate (13) is connected to the head hoop (14).

4. AR spectacles with novel arms according to claim 3, characterized in that the arm connecting means are two sets of arms (2) with the same structure and are arranged in one-to-one correspondence with the two sets of arms, and the arm connecting means comprise:

a moving plate (16);

a connecting block (17) with one end hinged on the moving plate (16);

the accommodating notch (18) is formed in one end face, opposite to the moving plate (16), of the connecting block (17), and the accommodating notch (18) can accommodate one end, opposite to the AR glasses body (1), of the glasses leg (2) and stretch into the AR glasses body;

and the fastening bolt (19) is arranged on the connecting block (17) and extends into the accommodating notch (18), and the glasses legs (2) extending into the accommodating notch (18) are tightly propped through the fastening bolt (19).

5. The AR glasses with novel temples as claimed in claim 4, wherein said adjustment mechanism comprises:

a second bolt (20) which is rotatably connected to the side surface of the rear support plate (13) opposite to the side where the hindbrain part of the head of the human body is located through a bearing;

a second nut pair (21) which is coaxially arranged on the second bolt (20) and is in threaded fit with the second bolt (20);

the longitudinal openings (22) are two groups with the same structure and are symmetrically arranged on the rear supporting plate (13), and the longitudinal openings (22) and the second bolts (20) are longitudinally arranged in parallel;

the center of the horizontal connecting plate (23) is fixedly connected with the second nut pair (21);

and the moving blocks (24) slide in the longitudinal openings (22), the moving blocks (24) are two groups with the same structure and are arranged in one-to-one correspondence with the two groups of longitudinal openings (22), one end of each moving block (24) is connected to the corresponding moving plate (16), and the other end of each moving block (24) is connected to the horizontal connecting plate (23).

6. The AR glasses with novel temples as claimed in claim 1, further comprising a myopic lens fixing mechanism for fixing the myopic glasses, said myopic lens fixing mechanism comprising:

a frame accommodating groove (25) which is arranged on one side of the AR glasses body (1) facing to the eye part and is used for accommodating a frame of the myopia glasses;

and a temple support groove (26) opened on the veneer support protrusion (3) to support the temples of the myopic glasses.

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