CN109521569B

CN109521569B - Ultralight AR glasses suitable for superposition wearing

Info

Publication number: CN109521569B
Application number: CN201811577658.3A
Authority: CN
Inventors: 王进; 崔海涛
Original assignee: Goolton Technology Co ltd
Current assignee: Goolton Technology Co ltd
Priority date: 2018-12-20
Filing date: 2018-12-20
Publication date: 2020-11-13
Anticipated expiration: 2038-12-20
Also published as: CN109521569A

Abstract

The invention discloses ultra-light AR glasses suitable for superposition wearing, which comprise: the picture frame comprises an inner frame and an outer frame; the outer frame consists of a first arc-shaped frame and a second arc-shaped frame which are integrally formed; the inner frame is arranged at the top end of the outer frame in a turnover mode; the lenses for the AR glasses are arranged in the inner frame; the extension part is connected to the inner side of the connecting rod and comprises telescopic first supporting rods arranged at two ends of the connecting rod and arc-shaped rods which are connected with the telescopic first supporting rods and located between the telescopic first supporting rods; a semi-closed space arranged along the longitudinal direction of the glasses legs is arranged at the positions of the glasses legs close to the bottom ends; the glasses frame, the extension part and the glasses legs are all of plastic titanium structures; the invention can be overlapped with common glasses for wearing without mutual interference, so that the experience effect of a user is better, and the weight of the AR glasses is greatly reduced by adopting the plastic titanium structure, thereby avoiding the uncomfortable wearing feeling caused by the weight problem.

Description

Ultralight AR glasses suitable for superposition wearing

Technical Field

The invention relates to the technical field of AR (augmented reality) glasses, in particular to ultralight AR glasses suitable for being worn in a superposed mode.

Background

The AR is a new technology for seamlessly integrating real world information and virtual world information, and virtual information is superimposed on the real world in real time through the technologies of a computer and the like, so that the real world information and the virtual world information exist on the same plane or space at the same time. The wearable device has the advantages that the wearable device is more and more rich in functions in the prior art, and accordingly richer interaction experience is provided for users; but for users with poor eyesight, the visual experience is poor; among the user crowd of AR glasses, the crowd who wears ordinary glasses accounts for a lot of, and this type of user can't see the content of throwing on the AR lens because of the eyesight problem under the condition of removing ordinary glasses, and experience is felt relatively poorly, if do not remove ordinary glasses and directly wear, can produce with AR glasses again and interfere, and is very inconvenient, and present AR glasses ubiquitous because of the problem of the uncomfortable sense of wearing that weight caused in addition, it is very necessary to provide the ultralight AR glasses that can superpose ordinary glasses and wear.

Disclosure of Invention

An object of the present invention is to solve at least the above problems and to provide at least the advantages described later.

Still another object of the present invention is to provide ultra-light AR glasses suitable for being worn in a superposed manner, which can be worn in a superposed manner with ordinary glasses without interference, so that the user experience effect is better, and by adopting a plastic titanium structure, the weight of the AR glasses is greatly reduced, and the wearing discomfort caused by the weight problem is avoided.

To achieve these objects and other advantages in accordance with the purpose of the invention, there is provided ultra-light AR glasses adapted for superposition wear, comprising: the glasses comprise lenses for AR glasses, a glasses frame for fixing the lenses and glasses legs fixed on two sides of the glasses frame, wherein the glasses frame comprises an inner frame and an outer frame, and the outer frame is arranged on the outer side of the inner frame and matched with the inner frame.

The outer frame consists of a first arc-shaped frame and a second arc-shaped frame which are integrally formed; the connecting rod is connected with the first arc-shaped frame and the second arc-shaped frame and is arranged at the top ends of the first arc-shaped frame and the second arc-shaped frame; the connecting rod is located the position in the middle part of the top of first arc frame and second arc frame sets up the breach respectively.

A rotating shaft rotatably connected transversely within the notch; a first end of the connecting plate is sleeved on the rotating shaft, and a second end of the connecting plate is connected with the inner frame, so that the inner frame rotates by 0-90 degrees around the rotating shaft; the lenses for the AR glasses are disposed within the inner frame.

The extension part is connected inboard the connecting rod, the extension part is including setting up the first bracing piece of telescopic at connecting rod both ends, and connect the first bracing piece of telescopic is located the arc pole between the first bracing piece of telescopic.

The temples comprise accommodating parts and supporting legs which are arranged at the rear ends of the accommodating parts and are connected in a telescopic mode; bosses are arranged on the inner sides of the accommodating part and the supporting legs close to the top ends of the accommodating part and the supporting legs, and the bosses are arranged along the longitudinal direction of the accommodating part and the supporting legs and equal to the sum of the accommodating part and the supporting legs so as to form a semi-closed space at the bottom ends of the bosses together with the glasses legs.

The spectacle frame, the extension part and the spectacle legs are all of plastic titanium structures.

Preferably, still include the nose bracket, it sets up the inboard of inside casing, the nose bracket include with the telescopic second bracing piece that the inside casing middle part is connected the symmetry and is set up with the arc frame of nose wing adaptation between the telescopic second bracing piece.

Preferably, the storage part further comprises an induction adjusting system, the induction adjusting system is arranged in the storage part and comprises an infrared induction module, a coordinate positioning module and a controller, and a control button electrically connected with the controller is arranged on the outer side of the storage part; by opening the controller, the controller controls the telescopic second support rod to move outwards to the shortest length of the telescopic second support rod.

After the wearer wears and positions the nose wing, the controller sends an instruction to the infrared sensing module so that the infrared sensing module senses the position of the nose wing of the wearer and sends the instruction to the coordinate positioning module, and the coordinate positioning module gives a distance for the movement of the arc-shaped frame according to the position of the nose wing and transmits the distance to the controller to control the movement of the arc-shaped frame.

Preferably, a rechargeable battery is also included disposed within the receptacle and electrically connected to the induction regulation system.

Preferably, the first arc frame and the second arc frame are minor arc frames, one ends of which are connected to the connecting rod, and the other ends of which extend to the first arc frame and the second arc frame.

Preferably, still include the location portion that sets up on first arc frame and second arc frame, location portion includes:

and the positioning groove is arranged at the position, close to the bottom end of the first arc-shaped frame, of the end surface of the outer edge of the first arc-shaped frame and penetrates through the bottom end of the first arc-shaped frame.

The positioning piece is arranged in the positioning groove, a groove is formed in one surface, opposite to the inner side of the positioning groove, of the positioning piece, and the groove is matched with the inner frame; the positioning piece is matched with the first arc-shaped frame, the first end, close to the bottom end of the first arc-shaped frame, of the positioning piece can rotate around the bottom end of the first arc-shaped frame and is connected in the positioning groove in a self-rotating mode, so that when the positioning piece rotates to the opposite side of the first arc-shaped frame, the positioning piece and the first arc-shaped frame form an optimal arc frame wrapping the inner frame; and

and the positioning columns are longitudinally arranged between the first end of the positioning piece and the tail end of the positioning groove at intervals along the first arc-shaped frame.

When the positioning piece rotates towards the opposite surface, one surface in contact with the positioning column is provided with a positioning hole matched with the positioning column so as to fix the position behind the major arc frame formed by the positioning piece.

Preferably, the device further comprises a limiting strip which is arranged on the end face of the inner edge side end of the first arc-shaped frame and the end face of the second arc-shaped frame, which are close to the outer side.

Preferably, the arc-shaped bar is adapted to the forehead of the wearer, and the width of the arc-shaped bar is set to be 0.8-1.5 cm; the inner side of the arc-shaped rod is provided with a sponge cushion layer.

The invention at least comprises the following beneficial effects:

according to the invention, the extension part is arranged on the inner side of the glasses frame, so that a certain gap is reserved between the lenses of the AR glasses and the eyes of a wearer, thereby providing a condition for the user wearing the ordinary glasses to use the AR glasses while wearing the ordinary glasses, the size of the gap can be adjusted according to the length of the first telescopic supporting rod, and the length of the first telescopic supporting rod enables the AR glasses to be used for being worn together with the ordinary glasses and also can be used independently according to the self requirement; the turnover inner frame is arranged, so that a user wearing common glasses can be prevented from colliding when wearing the AR glasses, the user can wear the AR glasses without taking off the common glasses, the inner frame is turned over and rotates around the rotating shaft through the connecting plate, and the AR glasses turnover device is simple in structure, convenient and labor-saving to rotate and durable; through set up the boss in the mirror leg inboard, constitute semi-enclosed space through the boss of vertically arranging along the mirror leg and boss bottom mirror leg to the mirror leg of the ordinary glasses of avoiding wearing produces with the mirror leg of AR glasses and interferes, and avoids the uncomfortable sense of wearer, makes the user who wears ordinary glasses need not remove ordinary glasses and can directly wear AR glasses, can not produce each other and interfere, and visual effect is better.

The glasses frame, the extension part and the glasses legs are all of a plastic titanium structure, namely TR90, the plastic titanium structure is used as the glasses frame structure, the surface is lubricated, the density is 1.14-1.15, the glasses frame can float when placed in salt water, the weight of the glasses frame is lighter than that of other plastic glasses frames, the weight of the glasses frame is about less than half of the weight of the plate frame, the glasses frame is 85% of that of a nylon material, the load of the bridge of the nose and ears can be reduced, the weight of the AR glasses is lighter, and the problem that the weight.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

FIG. 1 is a schematic diagram of the construction of ultra-light AR eyewear adapted for superimposed wear in accordance with the present invention;

FIG. 2 is a schematic structural view of the ultra-light AR glasses suitable for being worn in a stacked manner after the inner frame is turned over;

fig. 3 is a schematic view of a partial structure of the outer frame according to the present invention.

Detailed Description

The present invention is further described in detail below with reference to the attached drawings so that those skilled in the art can implement the invention by referring to the description text.

It will be understood that terms such as "having," "including," and "comprising," as used herein, do not preclude the presence or addition of one or more other elements or groups thereof.

As shown in fig. 1-3, the present invention provides an ultra-light AR glasses suitable for overlay wearing, comprising: the glasses comprise a lens 1 used for AR glasses, a frame 2 used for fixing the lens 1 and glasses legs 3 fixed on two sides of the frame 2, wherein the frame 2 comprises an inner frame 21 and an outer frame 22, and the outer frame 22 is arranged on the outer side of the inner frame 21 and is matched with the inner frame 21.

The outer frame 22 is composed of a first arc frame 221 and a second arc frame 222 which are integrally formed; a connecting rod 223 connecting the first arc frame 221 and the second arc frame 222 and disposed at the top ends of the first arc frame 221 and the second arc frame 222; notches are respectively formed in the positions, located in the middle of the top ends of the first arc frame 221 and the second arc frame 222, of the connecting rod 223.

A rotating shaft rotatably connected transversely within the notch; a connecting plate 224, a first end of which is sleeved on the rotating shaft, and a second end of the connecting plate 224 is connected with the inner frame 21, so that the inner frame 21 rotates 0-90 degrees around the rotating shaft; the lenses 1 for AR glasses are disposed in the inner frame 21.

An extension part 4 connected inside the connecting rod 223, the extension part 4 comprising a first telescopic supporting rod 41 arranged at both ends of the connecting rod 223, and an arc-shaped rod 42 connected with the first telescopic supporting rod 41 and located between the first telescopic supporting rods 41.

The temples 3 comprise an accommodating part 31 and legs 32 provided at the rear end of the accommodating part 31 to be telescopically connected; the inner sides of the accommodating part 31 and the legs 32 are provided with bosses 53 at positions close to the top ends of the accommodating part 31 and the legs 32, and the bosses 53 are arranged along the longitudinal direction of the accommodating part 31 and the legs 32 and equal to the sum of the accommodating part 31 and the legs 32 to form a semi-closed space at the bottom ends of the bosses 53 with the temples 3.

The spectacle frame 2, the extension part 4 and the spectacle legs 3 are all of plastic titanium structures.

In the above scheme, by providing the extension part 4 on the inner side of the frame 2, a certain gap is left between the lens 1 of the AR glasses and the eyes of a wearer, so as to provide a condition for a user wearing ordinary glasses to use the AR glasses while wearing the ordinary glasses, the size of the gap can be adjusted according to the length of the first telescopic support rod 41, and the length of the first telescopic support rod 41 enables the AR glasses to be used for being worn by being overlapped with the ordinary glasses, and can also be used alone according to the self requirement; the turnover inner frame 21 is arranged, so that the situation that a user wearing ordinary glasses collides when wearing AR glasses is avoided, the user can wear the AR glasses without taking off the ordinary glasses, the turnover of the inner frame 21 rotates around the rotating shaft through the connecting plate 224, the structure is simple, the rotation is convenient and labor-saving, and the durability is realized; through being in the mirror leg 3 inboard sets up boss 53, constitutes semi-enclosed space through boss 53 and the boss 53 bottom mirror leg 3 of vertically arranging along mirror leg 3 to the mirror leg 3 of the ordinary glasses of avoiding wearing produces with the mirror leg 3 of AR glasses and interferes, and avoids the uncomfortable sense of wearer, makes the user of wearing ordinary glasses need not remove ordinary glasses and can directly wear AR glasses, can not produce each other and interfere, and visual effect is better.

The glasses frame 2, the extension part 4 and the glasses legs 3 are all of plastic titanium structures, so that the weight of the AR glasses is light, and the problem that the weight of the AR glasses causes discomfort to a user is solved; the plastic titanium TR-90 is a high polymer material with memorability, is the most popular international ultralight spectacle frame 2 material at present, has the characteristics of super toughness, collision resistance, wear resistance, low friction coefficient and the like, and can effectively prevent the damage to eyes and faces caused by the breakage and friction of a spectacle frame in motion. Due to the specific molecular structure, the material has good chemical resistance, is not easy to deform in a high-temperature environment, can resist the high temperature of 350 ℃ in a short time, is not easy to melt and burn, has no chemical residue to release, and meets the requirements of Europe on food-grade materials; TR90 its as the structure of the spectacle frame, the surface is lubricated, the density is 1.14-1.15, it will float when putting in salt water, lighter than other plastic spectacle frames, about less than half of the frame weight of the board, 85% of the nylon material, can reduce the bridge of the nose, ear burden, the product made of TR90 material is wear-resisting, chemical resistance is good, solvent resistance, weather fastness, difficult burning, high temperature resistant, TR90 is the high molecular material of memory, the resistance to deformation index is 620kg/cm2, difficult to deform, wherein, other connecting pieces or locating pieces except picture frame 2, extension 4 and mirror leg 3 on the AR glasses can all adopt the plastic titanium structure, in order to reduce the weight of AR glasses to a greater extent.

In a preferred scheme, the nose support is arranged on the inner side of the inner frame 21 and comprises telescopic second support rods 61 symmetrically connected with the middle part of the inner frame 21 and an arc-shaped frame 62 which is arranged between the telescopic second support rods 61 and is matched with the nose wings.

In the above scheme, through supporting the telescopic second bracing piece 61 of arc frame 62 sets up to the telescopic link of adjustable length, and every person of wearing of being convenient for adjusts the position of arc frame 62 according to self comfort, arc frame 62 still can avoid the user who has worn ordinary glasses for the setting when using AR glasses, and ordinary glasses bow or the landing that the mediation leads to.

In a preferable scheme, the storage part further comprises an induction adjusting system, the induction adjusting system is arranged in the storage part 31 and comprises an infrared induction module, a coordinate positioning module and a controller, and a control button electrically connected with the controller is arranged on the outer side of the storage part 31; by turning on the controller, the controller controls the second retractable support bar 61 to move outward to the shortest length of the second retractable support bar 61.

After the wearer wears and positions the nose wing, the controller sends an instruction to the infrared sensing module, so that the infrared sensing module senses the position of the nose wing of the wearer and sends the instruction to the coordinate positioning module, and the coordinate positioning module gives a distance for the movement of the arc-shaped frame 62 according to the position of the nose wing and transmits the distance to the controller to control the movement of the arc-shaped frame 62.

In the above scheme, before the wearer wears the AR glasses, the controller is turned on to control the retractable second support rod 61 to retract to the shortest length by touching the control button; turning the inner frame 21 to the top end of the outer frame 22, wearing the AR glasses, touching the control button for the second time, starting the infrared sensing module to sense the position of the nose wing of the wearer, transmitting the position coordinates to the coordinate positioning module, calculating by the coordinate positioning module to give the distance from the arc-shaped frame 62 to the nose wing of the wearer, transmitting the data information of the distance to the controller, controlling the arc-shaped frame 62 to move the distance to be adapted to the nose wing of the wearer, and simultaneously avoiding interference with a nose pad on ordinary glasses; the adjustable arrangement of the arc-shaped frame 62 matched with the nose wings ensures that the position comfortable for wearing can be adjusted according to the self condition of each wearer; the retractable second support rod 61 is an element that can be moved by electrical control, such as an air cylinder.

In one preferred embodiment, a rechargeable battery is provided within the receptacle 31 and electrically connected to the induction regulation system.

In the above-mentioned scheme, the rechargeable battery is arranged in the accommodating part 31 to improve the use value of the AR glasses, and the rechargeable battery supplies electric energy to the induction regulation system so that the induction regulation system can work normally.

In a preferred embodiment, the first arc frame 221 and the second arc frame 222 are inferior arc frames, one ends of which are connected to the connecting rod 223, and the other ends of which extend to the first arc frame 221 and the second arc frame 222.

In the above solution, the frame 22 is configured as a minor arc to reduce the weight of the frame 2 and reduce the uncomfortable feeling during wearing; one end of the minor arc frame is fixed and is matched with the outer frame 22 of the inner frame 21, and the other end of the minor arc frame extends inwards along the radian matched with the inner frame 21, so that the inner frame 21 can be fixed by a positioning piece conveniently.

In a preferred embodiment, the positioning device further includes positioning portions disposed on the first arc frame 221 and the second arc frame 222, and the positioning portions include:

and the positioning groove 71 is arranged at a position, close to the bottom end of the first arc-shaped frame 221, of the end surface of the outer edge of the first arc-shaped frame 221, and penetrates through the bottom end of the first arc-shaped frame 221.

A positioning element 72 disposed in the positioning slot 71, wherein a surface of the positioning element 72 opposite to the inner side of the positioning slot 71 is provided with a groove, and the groove is adapted to the inner frame 21; the positioning element 72 is adapted to the first arc-shaped frame 221, and the first end of the positioning element 72, which is close to the bottom end of the first arc-shaped frame 221, of the positioning element 72 is connected to the positioning slot 71 in a rotatable manner so as to form a preferred arc frame wrapping the inner frame 21 with the first arc-shaped frame 221 when the positioning element 72 rotates to the opposite side of the first arc-shaped frame 221. And

positioning posts 73 are longitudinally arranged along the first arc-shaped frame 221 at intervals between the first end of the positioning member 72 and the end of the positioning slot 71.

When the positioning piece 72 rotates towards the opposite surface, a positioning hole matched with the positioning column 73 is formed in one surface, which is in contact with the positioning column 73, so that the position behind the optimal arc frame formed by the positioning piece 72 is fixed.

In the above scheme, the wearer wears the AR glasses, turns the inner frame 21 downward, and fixes the inner frame 21 by the positioning part; the positioning groove 71 is arranged on the first arc-shaped frame 221, the positioning element 72 is arranged in the positioning groove 71, the positioning element 72 can be conveniently accommodated, the positioning element 72 can turn and rotate towards the opposite surface of the positioning groove 71, the positioning element 72 is arranged on the opposite surface of the positioning groove 71 to form an optimal arc frame with the outer frame 22, and the optimal arc frame is matched with the inner frame 21 through the groove to position the inner frame 21; after the positioning element 72 is turned over and rotates, the positioning hole is matched with the positioning column 73 to fix the position of the positioning element 72, so that the inner frame 21 is fixed; first arc frame 221 is the same with second arc frame 222 structure and material, the structure that sets up on the first arc frame 221, the equipartition is in on the second arc frame 222 to the symmetry sets up, but setting element 72 is rotatable and the mode of setting of rotation does the end of locating lever sets up the mounting, the mounting is including fixing the pivot of the rotation in the constant head tank 71, and connect the pivot sets up the pivot top can horizontal hunting's setting element 72, and the application of mounting structure in the life has the signal antenna on the old money TV set.

In a preferred scheme, the device further comprises a limiting strip 74 which is arranged on the end surface of the inner edge side end of the first arc-shaped frame 221 and the second arc-shaped frame 222 close to the outer side.

In the above solution, the limiting strips 74 are arranged on the inner side end surfaces of the first arc-shaped frame 221 and the second arc-shaped frame 222, and the limiting strips 74 protrude from the inner side of the first arc-shaped frame 221, so that the inner frame 21 is prevented from excessively moving inwards to cause collision when being fitted to the outer frame 22.

In a preferred embodiment, the arc-shaped rod 42 is adapted to the forehead of the wearer, and the width of the arc-shaped rod 42 is set to be 0.8-1.5 cm; the inner side of the arc-shaped rod 42 is provided with a sponge cushion.

In the above scheme, the radian of the arc rod 42 is fitted on the forehead of the wearer, and by setting the radian matched with the forehead, the discomfort of the wearer can be reduced, the stabilizing effect of the arc rod 42 on the spectacle frame 2 can be ensured, and the discomfort of the arc rod 42 directly contacting with the skin can be reduced by setting the sponge cushion layer.

While embodiments of the invention have been described above, it is not limited to the applications set forth in the description and the embodiments, which are fully applicable in various fields of endeavor to which the invention pertains, and further modifications may readily be made by those skilled in the art, it being understood that the invention is not limited to the details shown and described herein without departing from the general concept defined by the appended claims and their equivalents.

Claims

1. An ultra-light AR eyewear adapted for superimposed wear, comprising: the glasses comprise lenses for AR glasses, a glasses frame for fixing the lenses and glasses legs fixed on two sides of the glasses frame, wherein the glasses frame comprises an inner frame and an outer frame, and the outer frame is arranged on the outer side of the inner frame and is matched with the inner frame;

the outer frame consists of a first arc-shaped frame and a second arc-shaped frame which are integrally formed; the connecting rod is connected with the first arc-shaped frame and the second arc-shaped frame and is arranged at the top ends of the first arc-shaped frame and the second arc-shaped frame; notches are respectively formed in the positions, located in the middle of the top ends of the first arc-shaped frame and the second arc-shaped frame, of the connecting rod;

a rotating shaft rotatably connected transversely within the notch; a first end of the connecting plate is sleeved on the rotating shaft, and a second end of the connecting plate is connected with the inner frame, so that the inner frame rotates by 0-90 degrees around the rotating shaft; the lenses for the AR glasses are arranged in the inner frame;

the extension part is connected to the inner side of the connecting rod and comprises first telescopic supporting rods arranged at two ends of the connecting rod and arc-shaped rods which are connected with the first telescopic supporting rods and located between the first telescopic supporting rods;

the temples comprise accommodating parts and supporting legs which are arranged at the rear ends of the accommodating parts and are connected in a telescopic mode; bosses are arranged on the inner sides of the accommodating part and the supporting legs close to the top ends of the accommodating part and the supporting legs, and the bosses are arranged along the longitudinal direction of the accommodating part and the supporting legs and equal to the sum of the accommodating part and the supporting legs so as to form a semi-closed space at the bottom ends of the bosses with the glasses legs;

the glasses frame, the extension part and the glasses legs are all of plastic titanium structures;

still including setting up location portion on first arc frame and the second arc frame, location portion includes:

the positioning groove is arranged at the position, close to the bottom end of the first arc-shaped frame, of the end surface of the side end of the outer edge of the first arc-shaped frame and penetrates through the bottom end of the first arc-shaped frame;

the positioning piece is arranged in the positioning groove, a groove is formed in one surface, opposite to the inner side of the positioning groove, of the positioning piece, and the groove is matched with the inner frame; the positioning piece is matched with the first arc-shaped frame, the positioning piece is close to a first end of the positioning piece at the bottom end of the first arc-shaped frame, and is connected in the positioning groove in a mode of rotating around the bottom end of the first arc-shaped frame and rotating automatically, so that when the positioning piece rotates to the opposite side of the first arc-shaped frame, the positioning piece and the first arc-shaped frame form a major arc frame wrapping the inner frame; and

the positioning columns are longitudinally arranged between the first end of the positioning piece and the tail end of the positioning groove at intervals along the first arc-shaped frame;

when the locating element to the opposite face of first arc frame rotates, the locating element with the one side of reference column contact be provided with the locating hole of reference column adaptation, in order to fix the locating element is constituteed the position behind the major arc frame.

2. The ultra-light AR glasses suitable for superposition wear of claim 1, further comprising a nose bracket disposed inside the inner frame, wherein the nose bracket comprises a second telescopic support rod symmetrically connected to the middle of the inner frame and an arc frame fitted to the nose wing disposed between the second telescopic support rod.

3. The ultra-light AR glasses suitable for superposition wear according to claim 2, further comprising an induction adjusting system disposed in the accommodating part, wherein the induction adjusting system comprises an infrared induction module, a coordinate positioning module and a controller, and a control button electrically connected to the controller is disposed outside the accommodating part; by starting the controller, the controller controls the telescopic second supporting rod to move outwards to the shortest length of the telescopic second supporting rod;

4. The ultra-light AR glasses suitable for overlay wear of claim 3, further comprising a rechargeable battery disposed within the receptacle electrically connected to the inductive adjustment system.

5. The ultra-light AR glasses adapted for superposition wear according to claim 1, wherein the first arc frame and the second arc frame are both minor arc frames having one end connected to the connecting rod and the other end extending to the first arc frame and the second arc frame.

6. The ultra-light AR glasses suitable for superposition wearing according to claim 1, further comprising a position-limiting strip disposed on the end surface of the inner edge side of the first arc frame and the second arc frame near the outer side.

7. The ultra-light AR glasses adapted for superposition wear of claim 3, wherein said arc-shaped bar fits the forehead of the wearer, said arc-shaped bar having a width set to 0.8-1.5 cm; the inner side of the arc-shaped rod is provided with a sponge cushion layer.