CN113253460A - Use pivot structure on intelligent glasses and use pivot structure's intelligent glasses - Google Patents

Abstract

The utility model relates to a glasses technical field, concretely relates to use pivot structure on intelligent glasses and use intelligent glasses of pivot structure, the pivot structure includes: the damping device comprises a fixed bracket, a rotating bracket and a damping rotating shaft; the rotary bracket is arranged on the glasses legs through the first fastening holes, and the fixed bracket is arranged on the glasses main machine through the second fastening holes; the rotating bracket is connected with the fixed bracket and fastened through the damping rotating shaft, and rotates relative to the fixed bracket by taking the damping rotating shaft as an axis; the rotary support is provided with a stop area, the fixed support is provided with a stop block, and the stop block rotates between an opening stop structure and a closing stop structure in the stop area so that the rotary support can rotate or stop at any angle in the range of the stop area relative to the fixed support. The arrangement of the damping rotating shaft and the stopping area enables the glasses legs to stay at any position in the stopping area, and the glasses legs are not influenced by the data lines arranged inside in the moving process.

Description

Use pivot structure on intelligent glasses and use pivot structure's intelligent glasses

Technical Field

The disclosure relates to the technical field of glasses, in particular to a rotating shaft structure applied to intelligent glasses and glasses applying the rotating shaft structure.

Background

The pivot is very key part in the intelligent glasses, plays the effect of connecting host computer and mirror leg and coordinating the relative rotation of both, still can have high definition data line or FPC to pass through or bypass from it, connects both ends and carries out signal transmission. The shaft must also have a certain reliability while performing its function, such as the commonly mentioned rotational life.

The commonly used spindle solutions for AR or MR spectacles currently on the market are as follows: the spectacles using the rotating shaft are the same as common myopia spectacles in the undamped structure, and the thicker and hard high-definition data wires pass through the spectacles, so that the movement of the spectacle legs is greatly influenced by the data wires, the data wires swing along with the data wires, and the spectacle legs are inflexible in movement.

BRIEF SUMMARY OF THE PRESENT DISCLOSURE

In order to solve the above problems, an object of the present disclosure is to provide a rotating shaft structure applied to smart glasses and smart glasses using the rotating shaft structure, which solve the problem that the glasses legs of the existing glasses cannot conveniently rotate or stop at any position in the stopping area through the arrangement of the damping rotating shaft.

The purpose of the present disclosure is realized by the following technical scheme:

the utility model provides a pair of use pivot structure on intelligent glasses, include: the damping device comprises a fixed bracket, a rotating bracket and a damping rotating shaft; the fixed bracket is provided with a second fastening hole for fastening with a glasses host;

a first through hole is formed in one end, far away from the first fastening hole, of the rotating support, a second through hole is formed in one end, far away from the second fastening hole, of the fixed support, one end, provided with the first through hole, of the rotating support is connected with one end, provided with the second through hole, of the fixed support and fastened through the damping rotating shaft, and the rotating support rotates relative to the fixed support by taking the damping rotating shaft as an axis;

the rotary support is provided with a stop area, the fixed support is provided with a stop block, the stop area is internally provided with an opening-closing stop structure and a closing stop structure, and the stop block is arranged in the stop area and rotates between the opening-closing stop structure and the closing stop structure, so that the rotary support rotates or stops at any angle in the range of the stop area relative to the fixed support.

Furthermore, the damping rotating shaft comprises a pin shaft, a flat washer, a spring washer and a nut; the pin shaft penetrates through the first through hole and the second through hole, and the flat washer and the spring washer are sequentially mounted on the pin shaft and then locked through the nut.

Further, the number of the spring washers is one or more.

Further, the fixing bracket comprises a fixing end and a wire passing end, the second fastening hole is formed in the fixing end, and the second through hole is formed in the wire passing end.

Furthermore, an inner wire passing channel for passing wires is arranged at the wire passing end of the fixing support.

Further, the width of the cross-section of the inner string-passing channel is set based on a cross-section width formula, which is:

cross-sectional width-wire diameter + wall thickness x 2

The diameter of the wire is the diameter of the wire or the data wire passing through the inner wire passing channel, and the wall thickness is the thickness of the inner wall of the inner wire passing channel.

Furthermore, the outer side corresponding to the inner wire passing channel is made of metal.

Furthermore, the outer side corresponding to the inner wire passing channel is made of stainless steel.

Furthermore, a certain included angle is formed between the fixed end and the wire passing end.

Further, the first fastening hole comprises a first positioning hole and a first fixing hole, and the second fastening hole comprises a second positioning hole and a second fixing hole; the rotating bracket is positioned and installed with the glasses legs through the first positioning holes, and the rotating bracket is fixed with the glasses legs through the first fixing holes; the fixed support is positioned and installed with the glasses host through the second positioning hole, and the fixed support is fixed with the glasses host through the second fixing hole.

Further, three holes are formed in the first fixing hole in the rotating support and the second fixing hole in the fixing support according to the triangular positions.

Use pivot structure's intelligent glasses includes: the glasses comprise glasses legs, a glasses main machine and a rotating shaft structure comprising any one of the glasses legs and the glasses main machine; one end of the rotating shaft structure is connected with the glasses legs, and the other end of the rotating shaft structure is connected with the glasses host; the glasses comprise a glasses body and a glasses leg, wherein the glasses leg is provided with a cavity for installing a rotating support and a damping rotating shaft, and the glasses body is provided with a cavity for installing a fixed support.

Furthermore, a first fixing column matched and fastened with the first fixing hole is arranged in a cavity on the glasses leg, and a second fixing column matched and fastened with the second fixing hole is arranged in a cavity of the glasses main machine.

Furthermore, the part of the fixing support between the glasses legs and the glasses main machine is a connection part, the connection part leaks out of the glasses main machine, and an inner wire passing channel of the fixing support is arranged on the inner side of the connection part.

According to the rotating shaft structure applied to the intelligent glasses and the intelligent glasses applying the rotating shaft structure, the damping rotating shaft comprises the fixed support, the rotating support and the damping rotating shaft; the rotary bracket is arranged on the glasses legs through the first fastening holes, and the fixed bracket is arranged on the glasses main machine through the second fastening holes; the rotating bracket is connected with the fixed bracket and fastened through the damping rotating shaft, and rotates relative to the fixed bracket by taking the damping rotating shaft as an axis; the rotary support and the fixed support are respectively provided with a stop area and a stop block at the joint of the rotary support and the fixed support, and the stop block rotates between an opening stop structure and a closing stop structure so that the rotary support can rotate or stop at any angle in the range of the stop area relative to the fixed support. The damping rotating shaft and the stopping area are arranged, so that the glasses legs can stay at any position in the stopping area.

Drawings

The accompanying drawings, which are included to provide a further understanding of the disclosure and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the disclosure and together with the description serve to explain the disclosure and not to limit the disclosure. In the drawings:

fig. 1 is a schematic structural diagram of a spindle structure applied to smart glasses according to the present disclosure;

FIG. 2 is an assembly view of the hinge structure applied to the smart glasses according to the present disclosure;

FIG. 3 is a partially enlarged view of a stop region of a hinge structure applied to smart glasses according to the present disclosure;

FIG. 4 is a cross-sectional view of the resistance ratio hinge of the hinge structure applied to smart glasses according to the present disclosure;

FIG. 5 is a schematic structural diagram of the smart glasses using the hinge structure according to the present disclosure

Fig. 6 is an assembly schematic diagram of the hinge structure of the present disclosure mounted on smart glasses.

Wherein the reference numerals are: 1-a fixed support, 101-a fixed end, 102-a line passing end, 103-a second through hole, 104-an inner line passing channel, 105-a second positioning hole, 106-a second fixing hole, 107-a stop block, 2-a rotating support, 201-a first through hole, 202-an opening and closing stop structure, 203-a closing stop structure, 204-a first positioning hole, 205-a first fixing hole, 3-a damping rotating shaft, 301-a pin shaft, 302-a flat gasket, 303-a spring gasket, 304-a nut, 4-a glasses leg, 401-a first fixed column, 5-a glasses host, 501-a second fixed column and 6-an engagement part.

Detailed Description

In order to make the technical solutions of the present invention better understood, 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. The embodiments described by referring to the drawings are exemplary only for the purpose of illustrating the invention and are not to be construed as limiting the invention. In addition, if a detailed description of the known art is not necessary to show the features of the present invention, it is omitted.

It should be noted that the terms "first," "second," and the like in the description and claims of the present invention and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the invention described herein are capable of operation in sequences other than those illustrated or described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

It will be understood by those skilled in the art that, unless otherwise defined, all terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. It will be further understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the prior art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.

Example 1

As shown in fig. 1 to 6, the hinge structure applied to the smart glasses according to the embodiment of the present disclosure includes: the damping device comprises a fixed support 1, a rotating support 2 and a damping rotating shaft 3; the rotary bracket 2 is provided with a first fastening hole for fastening with the glasses leg 4, and the fixed bracket 1 is provided with a second fastening hole for fastening with the glasses main body 5;

a stopping area is arranged on the rotating bracket 2, a stopping block 107 is arranged on the fixed bracket 1, a second through hole 103 is arranged at one end, away from the second fastening hole, of the fixed bracket 1, one end, provided with a first through hole 201, of the rotating bracket 2 is connected with one end, provided with the second through hole 103, of the fixed bracket 1 and fastened through the damping rotating shaft 3, and the rotating bracket 2 rotates relative to the fixed bracket 1 by taking the damping rotating shaft 3 as an axis;

the rotary support 2 and the fixed support 1 are respectively provided with a stopping area and a stop block 107 at the joint of each other, an opening-closing stopping structure 202 and a closing stopping structure 203 are arranged in the stopping area, and the stop block 107 is installed in the stopping area and rotates between the opening-closing stopping structure 202 and the closing stopping structure 203, so that the rotary support 2 rotates or stops at any angle in the range of the stopping area relative to the fixed support 1.

The utility model discloses an use pivot structure on intelligent glasses and use intelligent glasses of pivot structure includes: the damping device comprises a fixed support 1, a rotating support 2 and a damping rotating shaft 3; the rotary bracket 2 is arranged on the glasses leg 4 through a first fastening hole, and the fixed bracket 1 is arranged on the glasses main body 5 through a second fastening hole; the rotating bracket 2 is connected with the fixed bracket 1 and is fastened through the damping rotating shaft 3, and the rotating bracket 2 rotates relative to the fixed bracket 1 by taking the damping rotating shaft 3 as an axis; the rotating bracket 2 and the fixed bracket 1 are respectively provided with a stop area and a stop block 107 at the joint of each other, and the stop block 107 rotates between an opening and closing stop structure 202 and a closing stop structure 203, so that the rotating bracket 2 rotates or stops at any angle in the range of the stop area relative to the fixed bracket 1. The damping rotating shaft 3 and the stopping area are arranged, so that the glasses legs 4 can stay at any position in the stopping area; and when the data lines are arranged in the temples, the rotational movement of the temples is not affected by the internally arranged data lines due to the damping effect.

In an embodiment, the damping rotating shaft 3 includes a pin 301, a flat washer 302, a spring washer 303, and a nut 304; the pin 301 penetrates through the first through hole 201 and the second through hole 103, and the flat washer 302 and the spring washer 303 are sequentially mounted on the pin 301 and then locked by the nut 304. A pin shaft 301 penetrates through the fixed support 1 and the rotating support 2, then is sleeved on the pin shaft 301 through a flat washer 302 and a spring washer 303, and is fastened on the pin shaft 301 through a nut 304 for fixing; the damping effect of the damping rotating shaft 3 mainly comes from the friction between the flat washer 302 and the rotating bracket 2, and the spring washer 303 can ensure that the friction force in a standard range always exists within a certain rotating frequency. The initial torsion of the rotating shaft in the scheme is 1.5+/-0.3kgf.cm, and after bending for 10000 times, the torsion value is not lower than 0.8 kgf.cm.

Further, fixing glue is coated on the inner ring of the nut 304 for loosening.

In an embodiment, the number of the spring washers 303 is one or more. The number of the flat washers 302 can be set by itself, and the number of the spring washers 303 is one or more; preferably, the number of the flat washers 302 is one, and the number of the spring washers 303 is three.

In an embodiment, the fixing bracket 1 includes a fixing end 101 and a wire end 102, the second fastening hole is disposed on the fixing end 101, and the second through hole 103 is disposed on the wire end 102. The fixed end 101 is provided with a second fastening hole for fastening the fixed bracket 1 to the glasses main body 5, and the line end 102 is provided with a second through hole 103 for matching and connecting the fixed bracket 1 and the rotating bracket 2. The second fastening hole and the second through hole 103 are respectively located at two ends of the fixed bracket 1, so that the assembly of the rotating bracket 2 and the fixed bracket 1, and the assembly of the fixed bracket 1 and the glasses main unit 5 are facilitated.

In an embodiment, the wire end 102 of the fixing bracket 1 is provided with an inner wire passage 104 for passing a wire. The whole rotating shaft structure mainly comprises three parts, namely the fixed support 1, the rotating support 2 and the damping rotating shaft 3. The fixed support 1 has a part exposed outside the glasses legs 4 and the glasses main unit 5, the part is a connection part 6 of the glasses legs 4 and the glasses main unit 5, the inner side of the connection part 6 (i.e. the inner side of the glasses in reality) is provided with the inner wire passing channel 104, and the inner wire passing channel 104 is used for passing through the wires coming and going between the glasses legs 4 and the glasses main unit 5.

In an embodiment, the width of the cross-section of the inner string-passing channel 104 is set based on a cross-section width formula; the formula of the section width is as follows:

cross-sectional width-wire diameter + wall thickness x 2

The diameter of the wire is the diameter of the wire or the data wire passing through the inner wire passage 104, and the wall thickness is the thickness of the inner wall of the inner wire passage 104. The inner wire passing channel 104 is used for passing through a wire or a high-definition data line, the width of the cross section of the inner wire passing channel 104 can be designed according to actual conditions, and the width of the cross section of the inner wire passing channel 104 meets the following formula: the cross-sectional width is the wire diameter + wall thickness × 2. The inner wire passage 104 designed according to the formula is light and small, so that the appearance of the rotating shaft of the connecting part 6 is designed to be small, and the whole machine looks more flexible and light.

In an embodiment, the outer side of the inner via 104 is made of metal. When the rotating shaft structure is used for connecting the glasses, the fixed support 1 is connected with the glasses main machine 5, the rotating support 2 is connected with the glasses legs 4, the part of the fixed support 1 at the connecting position between the glasses legs 4 and the glasses main machine 5 is the connecting part 6, the connecting part 6 leaks out of the glasses legs 4 and the glasses main machine 5, the connecting part 6 can be designed to be small and exquisite and made of metal materials, the metal materials can enable the appearance at the connecting part 6 to be improved in texture, the texture of the metal appearance is much stronger than that of the plastic, and the wire passing requirement is met.

In an embodiment, the outer side of the inner wire passage 104 is made of stainless steel. The outer side corresponding to the inner wire passing channel 104 is the connecting part 6, and the connecting part 6 is exposed outside and is in contact with air for a long time, so that the possibility of corrosion or scratching is caused, a stainless steel material is arranged at the connecting part 6, the stainless steel can be subjected to PVD treatment after being polished, the requirement of using at ordinary times can be met, and meanwhile, the glasses have texture.

In an embodiment, the fixed end 101 and the line end 102 are disposed at an angle. The fixed support 1 includes a fixed end 101 and a line end 102, the fixed end 101 is connected with the glasses host 5, the line end 102 is connected with the glasses legs 4, the fixed end 101 and the line end 102 support are arranged at a certain included angle, so that the glasses legs 4 are relatively smoother to the rotation and installation of the glasses host 5, and the structure accords with the approximate vertical structural relationship or the structure principle between the common glasses legs 4 and the glasses host 5.

In an embodiment, the first fastening hole includes a first positioning hole 204 and a first fixing hole 205, and the second fastening hole includes a second positioning hole 105 and a second fixing hole 106; the rotating bracket 2 is positioned and installed with the glasses leg 4 through the first positioning hole 204, and the rotating bracket 2 and the glasses leg 4 are fixed through the first fixing hole 205; the fixing bracket 1 is positioned and installed with the glasses main unit 5 through the second positioning hole 105, and the fixing bracket 1 and the glasses main unit 5 are fixed through the second fixing hole 106. The first positioning hole 204 and the first fixing hole 205 are disposed on the rotating bracket 2, and in the process of assembling the rotating bracket 2 and the temples 4, the rotating bracket 2 is first positioned by the specific positions of the first positioning hole 204 and the temples 4, so that the position of the rotating bracket 2 relative to the temples 4 is substantially stable, and then the first fixing hole 205 is aligned with the specific position on the temples 4, and the rotating bracket 2 is fixed on the temples 4 by inserting screws into the first fixing holes 205.

A second fixing hole 106 and a second positioning hole 105 are disposed on the fixing end 101 of the fixing bracket 1, and during the assembling process of the fixing bracket 1 and the glasses main unit 5, the fixing bracket 1 is first positioned with a specific position of the glasses main unit 5 through the second positioning hole 105, so that the position of the fixing bracket 1 relative to the glasses main unit 5 is substantially stable, and then the fixing bracket 1 is fixed on the glasses main unit 5 by inserting a screw into the second fixing hole 106.

In the embodiment, the first fixing hole 205 of the rotating bracket 2 and the second fixing hole 106 of the fixing bracket 1 are provided with three holes according to a triangular position. The first fixing hole 205 on the rotating bracket 2 and the second fixing hole 106 on the fixing bracket 1 are arranged according to the positions of the triangles and are all arranged into three holes, so that a better stabilizing effect is achieved.

Example 2

As shown in fig. 1 to 6, the smart glasses using the hinge structure according to the embodiment of the present disclosure include: the glasses leg 4, the glasses main frame 5 and the rotating shaft structure in the technical scheme are included; one end of the rotating shaft structure is connected with the glasses legs 4, and the other end of the rotating shaft structure is connected with the glasses host 5; the glasses frame 5 is provided with a cavity for mounting the rotary bracket 2 and the damping rotating shaft 3, and the glasses frame 4 is provided with a cavity for mounting the fixed bracket 1.

In the embodiment, one end of a fixed support 1 of a rotating shaft structure is connected with a glasses host 5, and one end of a rotating support 2 of the rotating shaft structure is connected with glasses legs 4; cavities are formed in the glasses host 5 and the glasses legs 4, the fixed end 101 of the fixed support 1 is installed in the cavity of the glasses host 5, the wire passing end 102 of the fixed support 1 is connected with the rotating support 2, and the wire passing end 102 part of the fixed support 1, the rotating support 2 and the damping rotating shaft 3 are installed in the cavity of the glasses legs 4; the free stop function damping rotating shaft 3 is adopted in the method, and the glasses legs 4 and the glasses main machine 5 can rotate at any angle in the stop area through the rotating shaft structure.

In an embodiment, a first fixing post 401 is disposed in the cavity of the temple 4 and is matched and fastened with the first fixing hole 205, and a second fixing post 501 is disposed in the cavity of the glasses main unit 5 and is matched and fastened with the second fixing hole 106. A first fixing post 401 is arranged at a specific position in the cavity of the glasses leg 4, which is matched and fastened with the first fixing hole 205, and after the first fixing hole 205 and the first fixing post 401 are matched, a screw is inserted into the first fixing hole 205 for fixing; a second fixing post 501 is arranged at a specific position in the cavity of the glasses main body 5, which is matched and fastened with the second fixing hole 106, and after the second fixing hole 106 and the first fixing post 401 are matched, a screw is inserted into the second fixing hole 106 for fixing; the first fixing hole 205 and the first fixing column 401 are arranged in a triangular position for fixing, and the second fixing hole 106 and the second fixing column 501 are arranged in a triangular position for fixing, so that the fixing effects of the rotary bracket 2, the glasses legs 4, the fixing bracket 1 and the glasses main frame 5 are more stable.

In an embodiment, the portion of the fixing frame 1 between the temple 4 and the glasses main unit 5 is a connection portion 6, the connection portion 6 leaks outside the glasses main unit 5, and the inner wire passage 104 of the fixing frame 1 is disposed inside the connection portion 6. The free stop damping is adopted in the glasses leg opening and closing device, the glasses legs 4 and the glasses main machine 5 are partially leaked, the positions of the connecting parts 6 can be designed to be small, the glasses legs 4 can be opened and closed in the stopping area at any positions and stably stay, the using habit of a user is met, the widths of the glasses legs 4 and the connecting parts 6 of the glasses main machine 5 can be reduced, and the glasses can be designed to be smaller. Join in marriage 6 and leak outward, and be located glasses leg 4 with between the glasses host computer 5, join in marriage portion 6 and set up to stainless steel metal material, the stainless steel can be polished the back and do the PVD and handle, and the metal outward appearance makes feel more give the user better experience than plastics, and because of linking the very small and exquisite that the pivot appearance can design, makes the complete machine seem more nimble light.

The overall working or structural principle of the disclosure is:

a second through hole 103 is arranged on a wire passing end 102 on the fixed support 1, a first through hole 201 is arranged on the rotating support 2, after the fixed support 1 and the rotating support 2 are matched and connected with the second through hole 103 through the first through hole 201, a pin 301 in the damping rotating shaft 3 penetrates through the first through hole 201 and the second through hole 103, then a flat washer 302 and a spring washer 303 are sequentially arranged on the pin 301 and then locked through a nut 304, so that the rotating support 2 of the fixed support 1 is rotationally connected, and the rotating support 2 rotates around the fixed support 1 by taking the damping rotating shaft 3 as an axis;

in addition, a stop area is arranged at the first through hole 201 of the rotating bracket 2, the first through hole 201 is positioned in the stop area, and an opening-closing stop structure 202 and a closing stop structure 203 are arranged in the stop area; a stop block 107 is arranged at the second through hole 103 of the fixing bracket 1, the stop block 107 is arranged in the stop area and makes the first through hole 201 and the second through hole 103 communicated, so that the pin shaft 301 passes through the first through hole 201 and the second through hole 103; the stop block 107 in the stop area rotates between the opening and closing stop structure 202 and the closing stop structure 203, and the rotating bracket 2 can rotate or stop at any angle within the angle range between the opening and closing stop structure 202 and the closing stop structure 203;

in addition, an inner wire passage 104 for passing a wire is arranged at the wire passing end 102 of the fixed bracket 1, the inner wire passage 104 is arranged at one side of the inner side of the fixed bracket 1 (namely, one side of the inner side of the glasses in reality), and the inner wire passage 104 is made of a metal material, so that a user can have a better glasses appearance.

The fixed end 101 of the fixed end 101 bracket is provided with a second fastening hole, one end of the rotating bracket 2, which is far away from the first through hole 201, is provided with a first fastening hole, the fixed bracket 1 is arranged in the cavity of the glasses mainframe 5 through the second fastening hole, and the rotating bracket 2, the damping rotating shaft 3 and the part of the wire passing end 102 of the fixed bracket 1 are arranged in the cavity of the glasses leg 4 through the first fastening hole; the glasses legs 4 can rotate at any angle in the angle range of the stop area relative to the glasses main machine 5 through the damping rotating shaft 3;

in addition, the wire passing end 102 of the fixed bracket 1 partially leaks out of the cavity of the glasses legs 4 and the glasses main body 5, the part is a connecting part 6 between the glasses legs 4 and the glasses main body 5, the inner side of the connecting part 6 is provided with the inner wire passing channel, and the connecting part 6 is made of metal materials, so that the appearance of the glasses is improved.

The common spindle solutions of AR or MR spectacles currently on the market also include the following and have the following drawbacks: (1) under a certain angle, the damping exists, free stop (any angle pause function) does not exist, and the glasses legs can only stay in an opening or closing state; (2) the damping exists, but the connecting position of the whole glasses and the glasses legs is very wide for wrapping the lower rotating shaft, and the glasses legs are very wide, so that the whole glasses are very heavy and cannot be drawn close to each other in a light and handy way.

The beneficial effect of this disclosure lies in:

1. the utility model discloses an use pivot structure on intelligent glasses and use intelligent glasses of pivot structure, the pivot structure includes: the damping device comprises a fixed support 1, a rotating support 2 and a damping rotating shaft 3; the rotary bracket 2 is arranged on the glasses leg 4 through a first fastening hole, and the fixed bracket 1 is arranged on the glasses main body 5 through a second fastening hole; the rotating bracket 2 is connected with the fixed bracket 1 and is fastened through the damping rotating shaft 3, and the rotating bracket 2 rotates relative to the fixed bracket 1 by taking the damping rotating shaft 3 as an axis; the rotating bracket 2 and the fixed bracket 1 are respectively provided with a stop area and a stop block 107 at the joint of each other, and the stop block 107 rotates between an opening and closing stop structure 202 and a closing stop structure 203, so that the rotating bracket 2 rotates or stops at any angle in the range of the stop area relative to the fixed bracket 1. The damping rotating shaft 3 and the stopping area are arranged, so that the glasses legs 4 can stay at any position in the stopping area; and when the data lines are arranged in the temples, the rotational movement of the temples is not affected by the internally arranged data lines due to the damping effect.

2. The inner wire passage 104 is disposed on the inner side of the fixing bracket 1 (the inner side of the glasses in daily life), so that the data wire of the smart glasses can be arranged conveniently and neatly.

3. The cross-sectional width of the inner wire passage 104 can be designed according to the overall condition of the glasses, the inner wire passage 104 designed according to the cross-sectional width formula of the inner wire passage 104 is small and portable, the connecting part 6 on the outer side corresponding to the inner wire passage 104 is small and portable, the whole glasses looks more flexible and portable, and better visual experience is provided for users.

4. The friction between the flat washer 302 and the rotating bracket 2 produces a damping effect, and the arrangement of the spring washer 303 ensures that the friction force in a standard range is always present within a certain number of times of rotation of the rotating structure.

5. The second fixing hole 106 on the fixing bracket 1 and the first fixing hole 205 on the rotating bracket 2 are arranged in triangular positions, so that the fixing bracket 1 is more stably connected with the glasses main unit 5, the rotating bracket 2 and the glasses legs 4.

6. The connection part 6 which leaks between the glasses legs 4 and the glasses main body 5 is made of metal, so that the glasses are better in overall appearance, and better use experience is brought to users.

7. The fixed end 101 of the fixed support 1 and the line end 102 are arranged at a certain included angle, and the approximately vertical structural relationship between the glasses legs 4 and the glasses main unit 5 of the common glasses is further designed, so that the assembly and the use of the rotating shaft structure, the glasses legs 4 and the glasses main unit 5 are more convenient.

While the foregoing is directed to the preferred embodiment of the present disclosure, and the specific embodiments of the present disclosure are not limited to the details given herein, it will be apparent to those skilled in the art that various modifications and adaptations of the disclosure may be made without departing from the principles of the disclosure and are intended to be within the scope of the disclosure.

Claims (10)

1. Use pivot structure on intelligent glasses, its characterized in that includes:

the damping device comprises a fixed bracket, a rotating bracket and a damping rotating shaft; the fixed bracket is provided with a second fastening hole for fastening with a glasses host;

a first through hole is formed in one end, far away from the first fastening hole, of the rotating support, a second through hole is formed in one end, far away from the second fastening hole, of the fixed support, one end, provided with the first through hole, of the rotating support is connected with one end, provided with the second through hole, of the fixed support and fastened through the damping rotating shaft, and the rotating support rotates relative to the fixed support by taking the damping rotating shaft as an axis;

the rotary support is provided with a stop area, the fixed support is provided with a stop block, the stop area is internally provided with an opening-closing stop structure and a closing stop structure, and the stop block is arranged in the stop area and rotates between the opening-closing stop structure and the closing stop structure, so that the rotary support rotates or stops at any angle in the range of the stop area relative to the fixed support.

2. The rotating shaft structure applied to the intelligent glasses according to claim 1, wherein the damping rotating shaft comprises a pin shaft, a flat washer, a spring washer and a nut; the pin shaft penetrates through the first through hole and the second through hole, and the flat washer and the spring washer are sequentially mounted on the pin shaft and then locked through the nut.

3. The spindle structure applied to smart glasses according to claim 2, wherein the number of the spring washers is one or more.

4. The rotating shaft structure applied to the intelligent glasses according to claim 1, wherein the fixing bracket comprises a fixing end and a wire passing end, the second fastening hole is formed in the fixing end, the second through hole is formed in the wire passing end, and an inner wire passing channel for passing a wire is arranged on the wire passing end of the fixing bracket.

5. The rotating shaft structure applied to the intelligent glasses according to claim 4, wherein the width of the cross section of the inner wire passing channel is set based on a cross section width formula, and the cross section width formula is as follows:

cross-sectional width-wire diameter + wall thickness x 2

The diameter of the wire is the diameter of the wire or the data wire passing through the inner wire passing channel, and the wall thickness is the thickness of the inner wall of the inner wire passing channel.

6. The rotating shaft structure applied to the intelligent glasses according to claim 5, wherein the outer side corresponding to the inner wire passage is made of metal.

7. The rotating shaft structure applied to the smart glasses according to claim 1, wherein the first fastening hole comprises a first positioning hole and a first fixing hole, and the second fastening hole comprises a second positioning hole and a second fixing hole; the rotating bracket is positioned and installed with the glasses legs through the first positioning holes, and the rotating bracket is fixed with the glasses legs through the first fixing holes; the fixed support is positioned and installed with the glasses host through the second positioning hole, and the fixed support and the glasses host are fixed through the second fixing hole;

the first fixing hole on the rotating bracket and the second fixing hole on the fixing bracket are provided with three holes according to the triangular positions.

8. Use intelligent glasses of pivot structure, its characterized in that includes: glasses legs, glasses main frame and a rotating shaft structure comprising any one of claims 1 to 11; one end of the rotating shaft structure is connected with the glasses legs, and the other end of the rotating shaft structure is connected with the glasses host; the glasses comprise a glasses body and a glasses leg, wherein the glasses leg is provided with a cavity for installing a rotating support and a damping rotating shaft, and the glasses body is provided with a cavity for installing a fixed support.

9. The pair of smart glasses with a rotating shaft structure according to claim 8, wherein a first fixing column is disposed in the cavity of the glasses leg and is matched and fastened with the first fixing hole, and a second fixing column is disposed in the cavity of the glasses main unit and is matched and fastened with the second fixing hole.

10. The smart glasses with a hinge structure as claimed in claim 9, wherein the portion of the fixing bracket between the glasses legs and the glasses main unit is a connection portion, the connection portion is exposed outside the glasses main unit, and the inner wire passage of the fixing bracket is disposed inside the connection portion.

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