CN114578564A - Rotating shaft structure for glasses and using method thereof - Google Patents

Abstract

The invention relates to a rotating shaft structure for glasses and a using method thereof, wherein the rotating shaft structure comprises the following components: a fixing frame, wherein part of the fixing frame protrudes outwards to form a protruding part; the rotating piece is rotatably connected with the fixed frame, and a spring is fixedly arranged at one end of the rotating piece, which is far away from the fixed frame; and the connecting piece is adjustably arranged on one side of the rotating piece and located close to the fixed frame by the spring, the clamping plate is formed by the connecting piece corresponding to the protruding portion, the clamping plate is pushed by the protruding portion through rotating the glasses legs, the connecting piece is driven to move in the direction far away from the fixed frame and extrude the spring, and the spring generates resilience force on the connecting piece. The invention effectively solves the problem of uncomfortable wearing of AR glasses, the elastic force is given to the glasses legs through the rotating shaft structure, the glasses can be adapted to users with different head circumferences, and the glasses legs can also fix the glasses on the head of the user through the clamping force of the glasses legs on the head of the user, so that the weight of part of the glasses is shared, the weight of the glasses is prevented from completely acting on the nose bridge of the user, and the comfort level and the experience feeling of the glasses are improved.

Description

Rotating shaft structure for glasses and using method thereof

Technical Field

The invention relates to the field of glasses, in particular to a rotating shaft structure for glasses and a using method thereof.

Background

Along with the wider and wider requirements of the AR glasses, the types and the purposes of the AR glasses are more and more, the AR augmented reality has quite huge application potential, and the AR augmented reality can be widely applied to a plurality of fields such as military affairs, medicine, manufacturing and maintenance, entertainment and the like.

Because in the current design in the market, AR glasses's appearance is big and the weight is too heavy, wears uncomfortable, and the mirror leg can not be turned back even, has directly influenced AR glasses and has worn comfort level and experience and feel.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, provides a rotating shaft structure for glasses and a using method thereof, solves the problem that AR glasses are uncomfortable to wear, enables the glasses legs to be elastic through the rotating shaft structure, can be adapted to users with different head circumferences, enables the glasses to be fixed on the head of the user through the clamping force of the glasses legs on the head of the user, shares the weight of part of the glasses, avoids the weight of the glasses from completely acting on the bridge of the nose of the user, and improves the comfort and experience of the glasses.

The technical scheme for realizing the purpose is as follows:

the invention provides a rotating shaft structure for glasses, which is used for connecting a frame body and glasses legs of the glasses, and comprises:

the fixing frame is fixedly connected to one end of the frame body, and a part of the side part of the fixing frame, which is far away from the other end of the frame body, protrudes outwards to form a protruding part;

the rotating piece is rotatably connected with the fixed frame, and a spring is fixedly arranged at one end of the rotating piece, which is far away from the fixed frame; and

supply with mirror leg fixed connection's connecting piece, this connecting piece position is installed in rotating the piece and is located one side that the spring is close to the mount adjustably, and the connecting piece corresponds protruding portion and is formed with the cardboard, through rotatory mirror leg for protruding portion pushes away the cardboard, removes and extrudees the spring to the direction of keeping away from the mount with driving the connecting piece, thereby the spring produces the resilience force to the connecting piece, makes the connecting piece can drive the mirror leg and rotate to the direction that is close to each other.

The invention adopts the rotating shaft structure for the glasses, the protruding part pushes the clamping plate by rotating the glasses legs, so as to drive the connecting piece to move in the direction far away from the fixing frame and extrude the spring, thus the spring generates resilience force on the connecting piece, and the connecting piece can drive the glasses legs to rotate in the direction close to each other, thereby the head of a user can be clamped, the problem of uncomfortable wearing of AR glasses is solved, the elasticity is given to the glasses legs by the rotating shaft structure, the glasses can be adapted to users with different head circumferences, and the clamping force of the glasses legs on the head of the user can also enable the glasses to be fixed on the head of the user, so that the weight of part of the glasses is shared, the weight of the glasses is prevented from completely acting on the bridge of the nose of the user, and the comfort level and the experience of the glasses are improved.

The invention further improves the rotating shaft structure for the glasses, wherein the rotating part comprises a sleeve rotatably connected to the fixed frame and a bolt partially screwed at one end of the sleeve far away from the fixed frame, the connecting piece is sleeved on the bolt and the sleeve, the spring is sleeved on the part of the bolt exposed out of the sleeve, and the end part of the spring close to the fixed frame props against the corresponding side part of the connecting piece.

The invention further improves the structure of the rotating shaft for the glasses, and the two sleeves are arranged oppositely, and the two bolts are also correspondingly arranged.

The invention is used in the further improvement of the spindle structure of the glasses, the fixed mount includes two fixed plates set up oppositely;

rotate the piece including arranging the axis body between two fixed plates and relative setting and be fixed in two pins of fixed plate, the axis body is all worn to locate by two pins to the axis body can rotate around the pin.

The invention is used for the further improvement of the structure of the rotating shaft of the glasses, the side part of the fixed mount close to the connecting piece forms a circular arc surface;

the connecting piece includes that the position is installed in the connecting plate that rotates adjustably, and this cardboard fixed connection is close to the one end of mount in the connecting plate, and the tip that the connecting plate is close to the mount and cardboard all laminate in the arc surface.

The invention is further improved in the structure of the rotating shaft for the glasses, and a limit plate is fixedly arranged at the side part of the fixed frame and at one side of the protruding part far away from the connecting piece;

the clamping plate partially protrudes towards the direction close to the limiting plate to form a clamping part, when the clamping part is propped against the limiting plate, the clamping plate props against the protruding part to enable the connecting piece to extrude the spring, and a set angle is formed between the glasses leg and the frame body.

The inventive spindle structure for spectacles is further improved in that the set angle is 107 deg..

The invention is further improved in the structure of the rotating shaft for the glasses, wherein the top and the bottom of the fixing frame are both provided with protruding parts, and the two protruding parts are oppositely arranged;

the length of the clamping part is matched with the distance between the two convex protrusions, and when the clamping part is clamped against the limiting plate, the clamping part is positioned between the two convex protrusions.

The invention also provides a use method of the rotating shaft structure for the glasses, which comprises the following steps:

providing the rotating shaft structure, fixedly connecting the fixing frame with one end of the frame body, enabling the protruding part to face the direction far away from the other end of the frame body, and fixedly connecting the connecting piece with the glasses legs;

rotatory mirror leg for protruding portion pushes away the cardboard, removes and extrudees the spring to the direction of keeping away from the mount in order to drive the connecting piece, thereby the spring produces the resilience force to the connecting piece, makes the connecting piece can drive the mirror leg and rotate to the direction that is close to each other.

The use method of the rotating shaft structure for the glasses is further improved in that the rotating shaft structure further comprises a limiting plate fixedly arranged on the side part of the fixing frame and positioned on one side of the protruding part far away from the connecting piece, and a clamping and abutting part corresponding to the limiting plate and formed on the clamping plate;

the glasses legs are rotated until the clamping plates abut against the limiting plates to prevent the glasses legs from continuing to rotate, and a set angle is formed between the glasses legs and the frame body.

Drawings

Fig. 1 is a schematic view showing a combined state of a hinge structure for glasses according to the present invention.

Fig. 2 is an exploded view of the hinge structure for glasses according to the present invention.

Detailed Description

The invention is further described with reference to the following figures and specific examples.

The rotating shaft structure for the glasses and the use method thereof are adopted, the protruding portion pushes against the clamping plate by rotating the glasses legs to drive the connecting piece to move in the direction far away from the fixing frame and extrude the spring, so that the spring generates resilience force on the connecting piece, the connecting piece can drive the glasses legs to rotate in the direction close to each other, the heads of users can be clamped, the problem that AR glasses are uncomfortable to wear is solved, the glasses legs are endowed with elasticity through the rotating shaft structure, the glasses can be adapted to users with different head circumferences, the glasses can be fixed on the heads of the users by the clamping force of the glasses legs on the heads of the users, the weight of part of the glasses is shared, the weight of the glasses is prevented from completely acting on the bridge of the nose of the users, and the comfort level and the experience feeling of the glasses are improved. The following describes a hinge structure for eyeglasses according to the present invention with reference to the accompanying drawings.

Referring to fig. 1, fig. 1 is a schematic view illustrating an assembled state of a hinge structure for glasses according to the present invention. The following describes the structure of the hinge for eyeglasses according to the present invention with reference to fig. 1.

As shown in fig. 1 and 2, the hinge structure for glasses according to the present invention is used for connecting a frame body and temples of glasses, the frame body being used for mounting an AR glasses body or lenses, and the hinge structure includes:

a fixing frame 11 fixedly connected to one end of the frame body, wherein a part of the side part of the fixing frame 11 far away from the other end of the frame body protrudes outwards to form a protruding part 112;

a rotating member 12 rotatably connected to the fixed frame 11, wherein a spring 123 is fixedly arranged at one end of the rotating member 12 away from the fixed frame 11; and

and a connecting piece 13 fixedly connected with the glasses legs, wherein the connecting piece 13 is adjustably mounted on the rotating piece 12 and located on one side of the spring 123 close to the fixed frame 11, a clamping plate 132 is formed on the connecting piece 13 corresponding to the protruding part 112, and the protruding part 112 pushes the clamping plate 132 through rotating the glasses legs, so that the connecting piece 13 is driven to move in the direction away from the fixed frame 11 and extrude the spring 123, and the spring 123 generates resilience force on the connecting piece 13, so that the connecting piece 13 can drive the glasses legs to rotate in the direction close to each other.

Specifically, the fixing frame 11 includes two fixing plates 111 disposed oppositely;

the rotation member 12 includes a shaft body 121 disposed between the two fixed plates 111 and two pins 1211 disposed opposite to each other and fixed to the fixed plates 111, and the two pins 1211 are disposed through the shaft body 121 such that the shaft body 121 can rotate around the pins 1211.

As a preferred embodiment of the present invention, the rotating member 12 includes a sleeve 122 rotatably connected to the fixing frame 11 and a bolt 1221 partially screwed on one end of the sleeve 122 away from the fixing frame 11, the connecting member 13 is sleeved on the bolt 1221 and the sleeve 122, the spring 123 is sleeved on a portion of the bolt 1221 exposed from the sleeve 122, and an end of the spring 123 close to the fixing frame 11 abuts against a corresponding side of the connecting member 13.

Preferably, the sleeve 122 is fixedly disposed on the shaft 121, two sleeves 122 are disposed oppositely, and two bolts 1221 are correspondingly disposed.

Further, a circular arc surface is formed on the side part of the fixed frame 11 close to the connecting piece 13;

connecting piece 13 includes that the position is installed in the connecting plate 131 of rotating 12 adjustably, this cardboard 132 fixed connection is in the one end that connecting plate 131 is close to mount 11, the tip that connecting plate 131 is close to mount 11 and cardboard 132 all laminate in the arc surface, the tip that cardboard 132 corresponds with connecting plate 131 encloses to close promptly and is the L type laminate in the arc surface, when the mirror leg rotates, cardboard 132 moves along the arc surface with the tip that connecting plate 131 corresponds, connecting plate 131 can not move to the direction that is close to spring 123 along sleeve 122 and bolt 1221 this moment.

Furthermore, a limit plate 113 is fixedly arranged on the side of the fixing frame 11 and on the side of the protruding part 112 away from the connecting piece 13;

the clamping plate 132 partially protrudes to the direction close to the limiting plate 113 to form a clamping portion 1321, when the clamping portion 1321 abuts against the limiting plate 113, the clamping plate 132 abuts against the protruding portion 112 to enable the connecting piece 13 to press the spring 123, and the temple and the frame body have a set angle, i.e. the limiting plate 113 is used for preventing the temple from continuously turning outwards.

Specifically, the top and the bottom of the fixing frame 11 are formed with protruding portions 112, and the two protruding portions 112 are disposed oppositely, that is, the protruding portions 112 are formed on the side of the fixing plate 111;

the length of the abutting portion 1321 matches the distance between the two protruding portions 112, and when the abutting portion 1321 abuts against the limiting plate 113, the abutting portion 1321 is located between the two protruding portions 112.

Preferably, the set angle is 107 °, that is, after the temple and the frame body form an angle of 90 °, the temple may be continuously turned outward until the engaging portion abuts against the limiting plate, and at this time, the temple and the frame body form an angle of 90 ° and then the temple is turned outward by 17 °.

The specific embodiment of the invention is as follows:

fixedly connecting the fixing frame 11 with one end of the frame body, wherein the protruding part 112 faces the direction far away from the other end of the frame body, and fixedly connecting the connecting piece 13 with the glasses legs, and the connecting piece 13 can be inserted into the glasses legs and fixedly connected through a fixing bolt;

when the glasses legs are turned inwards, that is, the two glasses legs rotate towards the direction close to each other, the clamping plate 132 moves along the arc surface of the fixing frame 11 towards the direction far away from the protruding part 112, so that the glasses legs can be parallel to the frame body and are attached to the frame body, and the glasses can be conveniently stored;

when the temples are turned outwards, namely the two temples rotate towards the direction far away from each other, the clamping plate 132 moves along the arc surface of the fixed frame 11 towards the direction close to the protruding part 112, and in the process, the connecting plate 131 does not move along the sleeve and the bolt and does not extrude the spring 123 until the temples and the frame body form an angle of 90 degrees;

the temples continue to be turned outwards, i.e. the two temples continue to rotate in a direction away from each other, the snap plate 132 moves along the arc surface to a position corresponding to the protruding part 112, so that the card 132 abuts against the protrusion 112, the temple is continuously turned, the protrusion 112 abuts against the card 132, to move the connecting plate 131 along the sleeve 122 and the bolt 1221 in a direction approaching the spring 123, thereby pressing the spring 123, at which time the spring 123 generates a resilient force to the link plate 131, and when the user releases his hand, the resilient force of the spring 123 pushes the link plate 131, so that the connecting plate 131 moves along the sleeve 122 and the bolt 1221 in a direction approaching the fixed frame 11, the connecting plate 131 drives the glasses legs to rotate towards the direction approaching each other, so that the clamping plate 132 leaves the clamping part 1321, and the glasses legs rotate towards the direction approaching each other, so that a certain clamping force is generated on the head of a user, and the glasses are fixed on the head of the user, so that the pressure on the bridge of the nose is relieved;

continue outwards to overturn the mirror leg, two mirror legs continue to rotate to the direction of keeping away from each other promptly, and card portion 1321 supports limiting plate 113, and limiting plate 113 prevents that connecting piece 13 from continuing to rotate promptly, and the mirror leg has outwards overturned 17 this moment, and limiting plate 113 can prevent the outside excessive upset of mirror leg.

The invention also provides a use method of the rotating shaft structure for the glasses, which comprises the following steps:

providing the rotating shaft structure, fixedly connecting the fixed frame 11 with one end of the frame body, and fixedly connecting the connecting piece 13 with the glasses leg by the protruding part 112 facing to the direction far away from the other end of the frame body;

the temple is rotated so that the protruding portion 112 pushes against the snap plate 132 to drive the connecting member 13 to move in a direction away from the fixed frame 11 and press the spring 123, so that the spring 123 generates a resilient force to the connecting member 13, and the connecting member 13 can drive the temple to rotate in a direction approaching each other.

Further, the locking device further comprises a limiting plate 113 fixedly arranged at the side of the fixed frame 11 and located at one side of the protruding portion 112 far away from the connecting piece 13, and a clamping portion 1321 corresponding to the limiting plate 113 and formed on the clamping plate 132;

the glasses legs are prevented from rotating continuously by rotating the glasses legs until the clamping plates 132 abut against the limiting plates 113, and the glasses legs have a set angle with the frame body.

The specific operation mode of the practical implementation of the using method provided by the invention is as follows:

fixedly connecting the fixing frame 11 with one end of the frame body, wherein the protruding part 112 faces the direction far away from the other end of the frame body, and fixedly connecting the connecting piece 13 with the glasses legs, and the connecting piece 13 can be inserted into the glasses legs and fixedly connected through a fixing bolt;

when the glasses legs are turned inwards, namely the two glasses legs rotate towards the direction of approaching each other, the clamping plate 132 moves towards the direction far away from the protruding part 112 along the arc surface of the fixed frame 11, so that the glasses legs can be parallel to the frame body and attached to the frame body, and the glasses are convenient to store;

when the temples are turned outwards, i.e. the two temples are rotated in a direction away from each other, the clamping plate 132 moves along the arc surface of the fixing frame 11 in a direction close to the protruding part 112, and in the process, the connecting plate 131 does not move along the sleeve and the bolt, and does not press the spring 123 until the temples and the frame body form an angle of 90 °;

the temples continue to be turned outwards, i.e. the two temples continue to rotate in a direction away from each other, the snap plate 132 moves along the arc surface to a position corresponding to the protruding part 112, so that the card 132 abuts against the protrusion 112, the temple is continuously turned, the protrusion 112 abuts against the card 132, to move the connecting plate 131 along the sleeve 122 and the bolt 1221 in a direction approaching the spring 123, thereby pressing the spring 123, at which time the spring 123 generates a resilient force to the link plate 131, and when the user releases his hand, the resilient force of the spring 123 pushes the link plate 131, so that the connecting plate 131 moves along the sleeve 122 and the bolt 1221 in a direction approaching the fixed frame 11, the connecting plate 131 drives the glasses legs to rotate towards the direction approaching each other, so that the clamping plate 132 leaves the clamping part 1321, and the glasses legs rotate towards the direction approaching each other, so that a certain clamping force is generated on the head of a user, and the glasses are fixed on the head of the user, so that the pressure on the bridge of the nose is relieved;

continue outwards to overturn the mirror leg, two mirror legs continue to rotate to the direction of keeping away from each other promptly, and card portion 1321 supports limiting plate 113, and limiting plate 113 prevents that connecting piece 13 from continuing to rotate promptly, and the mirror leg has outwards overturned 17 this moment, and limiting plate 113 can prevent the outside excessive upset of mirror leg.

While the present invention has been described in detail and with reference to the embodiments thereof as illustrated in the accompanying drawings, it will be apparent to one skilled in the art that various changes and modifications can be made therein. Therefore, certain details of the embodiments are not to be interpreted as limiting, and the scope of the invention is to be determined by the appended claims.

Claims (10)

1. The utility model provides a pivot structure for glasses for connect the support body and the mirror leg of glasses, its characterized in that, pivot structure includes:

the fixing frame is fixedly connected to one end of the frame body, and a part of the side part of the fixing frame, which is far away from the other end of the frame body, protrudes outwards to form a protruding part;

the rotating piece is rotatably connected to the fixed frame, and a spring is fixedly arranged at one end of the rotating piece, which is far away from the fixed frame; and

supply with mirror leg fixed connection's connecting piece, the connecting piece position install adjustably in rotate the piece and be located the spring is close to one side of mount, the connecting piece corresponds protruding portion is formed with the cardboard, through the rotation the mirror leg makes protruding portion pushes away the cardboard, in order to drive the connecting piece is to keeping away from the direction removal and the extrusion of mount the spring, thereby the spring is right the connecting piece produces the resilience force, makes the connecting piece can drive the mirror leg rotates to the direction that is close to each other.

2. The hinge structure according to claim 1, wherein the rotating member includes a sleeve rotatably connected to the fixing frame and a bolt partially screwed to an end of the sleeve away from the fixing frame, the connecting member is sleeved on the bolt and the sleeve, the spring is sleeved on a portion of the bolt exposed from the sleeve, and an end of the spring close to the fixing frame abuts against a side portion corresponding to the connecting member.

3. A hinge structure for glasses according to claim 2, wherein the sleeves are provided in two opposite directions, and the bolts are provided in two corresponding directions.

4. The hinge structure for glasses according to claim 1, wherein the holder comprises two fixing plates disposed oppositely;

the rotation piece is including arranging in two axis body between the fixed plate and relative setting just are fixed in two pins of fixed plate, two the pin all wears to locate the axis body, thereby the axis body can wind the pin rotates.

5. The hinge structure for glasses according to claim 1, wherein the fixing frame is formed with a circular arc surface at a side portion thereof adjacent to the connecting member;

the connecting piece include the position install adjustably in the connecting plate of rotating, cardboard fixed connection in the connecting plate is close to the one end of mount, the connecting plate be close to the tip of mount with the cardboard all laminate in the arc surface.

6. The hinge structure for eyeglasses according to claim 1, wherein a limiting plate is fixedly disposed on a side portion of the fixing frame and on a side of the protruding portion away from the connecting member;

the clamping plate is provided with a part which protrudes and extends towards the direction close to the limiting plate to form a clamping and supporting part, when the clamping and supporting part supports against the limiting plate, the clamping plate supports against the protruding and supporting part to enable the connecting piece to extrude the spring, and a set angle is formed between the glasses leg and the frame body.

7. A hinge structure for spectacles according to claim 6, wherein the set angle is 107 °.

8. The hinge structure for glasses according to claim 6, wherein the protrusions are formed at both the top and bottom of the holder, and the two protrusions are disposed opposite to each other;

the length of the clamping and abutting part is matched with the distance between the two protruding parts, and when the clamping and abutting part abuts against the limiting plate, the clamping and abutting part is located between the two protruding parts.

9. A method of using a hinge structure for spectacles as claimed in claim 1, comprising the steps of:

providing the rotating shaft structure, fixedly connecting the fixing frame with one end of the frame body, enabling the protruding part to face the direction far away from the other end of the frame body, and fixedly connecting the connecting piece with the glasses legs;

the glasses legs are rotated, so that the protruding portions push against the clamping plates to drive the connecting pieces to move in the direction far away from the fixing frame and extrude the springs, the springs generate resilience force on the connecting pieces, and the connecting pieces can drive the glasses legs to rotate in the direction close to each other.

10. The method of using the hinge structure for eyeglasses according to claim 9, further comprising a limiting plate fixedly disposed on a side of the fixing frame and located on a side of the protruding portion away from the connecting member, and a retaining portion corresponding to the limiting plate and formed on the clip plate;

the glasses legs are rotated until the clamping plates abut against the limiting plates so as to prevent the glasses legs from continuing to rotate, and a set angle is formed between the glasses legs and the frame body.

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