CN219936213U - Intelligent glasses - Google Patents

Abstract

The utility model belongs to the technical field of intelligent wearing equipment, and particularly relates to intelligent glasses, which comprise a left frame body, a right frame body and a pupil distance adjusting structure arranged between the left frame body and the right frame body; the pupil distance adjusting structure comprises a shell and a rotation changing straight line adjusting module arranged on the shell; the left side part and the right side part of the shell are respectively provided with a chute, and the end parts of the left frame body and the right frame body are in sliding connection with the corresponding chute; the rotary variable-linear adjusting module is used for driving the left frame body and the right frame body to move relatively or reversely; the utility model can realize the relative or opposite movement of the left frame body and the right frame body, and further realize the pupil distance adjustment, thereby meeting the wearing requirements of different users and improving the universality and the experience of the users.

Description

Intelligent glasses

Technical Field

The utility model belongs to the technical field of intelligent wearing equipment, and particularly relates to intelligent glasses.

Background

In the modern society, intelligent glasses such as AR/VR (active-active/passive) have more and more functions, and people using the intelligent glasses have more and more functions. However, the universality of the existing intelligent glasses is poor, when different users use the same AR glasses, because the difference of the head sizes of the users leads to the fact that the distance between two lenses in the intelligent glasses is greatly different from the interpupillary distance between the eyes of the users when the users wear the same AR glasses, the wearing requirements of the different users cannot be met, and the experience of the users is affected.

Disclosure of Invention

Aiming at overcoming at least one of the defects in the prior art, the utility model provides intelligent glasses; the universality is strong, the wearing requirements of different users can be met, and the experience of the users is improved.

In order to solve the problems in the prior art, the embodiment of the utility model provides intelligent glasses, which comprise a left frame body and a right frame body; the pupil distance adjusting structure is arranged between the left frame body and the right frame body; the pupil distance adjusting structure comprises a shell and a rotation variable-straight line adjusting module arranged on the shell; the left side part and the right side part of the shell are respectively provided with a chute, and the end parts of the left frame body and the right frame body are in sliding connection with the corresponding chute;

the rotary straightening adjusting die is used for driving the left frame body and the right frame body to move relatively or oppositely.

Further, the rotary variable-linear adjusting module comprises a rotary operating piece and two movable sleeves;

the rotary operation piece comprises an operation part and screw parts positioned at two sides of the operation part; the screw threads of the two screw parts are opposite in rotation direction;

the movable sleeves are in threaded connection with the corresponding screw rod parts; the ends of the left frame body and the right frame body are respectively and fixedly connected with the corresponding movable sleeve.

Further, a driving piece for driving the rotation operation piece to rotate is arranged in the shell; or, the shell is provided with an avoidance port for the operation part to extend out.

Further, two limiting retaining walls are arranged in the shell at intervals, and each limiting retaining wall is used for limiting the corresponding movable sleeve.

Further, the movable sleeve comprises a cylindrical body and two mounting plate parts symmetrically arranged on the outer peripheral wall of the cylindrical body; the mounting plate part is fixedly connected with the left frame body or the right frame body.

Further, two supporting seats are arranged on the inner wall of the rear side of the shell at intervals, and arc-shaped grooves matched with the cylindrical body are formed in the supporting seats; and the mounting plate part is abutted with the end surfaces of the supporting seats at the two sides of the corresponding arc-shaped groove.

Further, the left frame body and the right frame body respectively comprise a front frame and a rear frame which are buckled together;

two connecting arms are respectively arranged at the opposite ends of the front frame at intervals, and the connecting arms are fixedly connected with the corresponding mounting plate parts.

Further, be equipped with FPC bonding seat on the front side inner wall of casing, FPC bonding seat includes the body, the body orientation one side interval of pupil distance adjustment structure is equipped with two ear seats, operating portion is located two in the space that the ear seat prescribes a limit to, the tip of ear seat is equipped with the arc and dodges the groove.

Further, the arc avoidance groove comprises a first groove section and a second groove section; the first groove section is matched with the screw rod part, and the second groove section is matched with the movable sleeve; and a limiting step surface for limiting the corresponding movable sleeve is formed between the first groove section and the second groove section.

Further, the shell comprises a front shell and a rear shell which are buckled together, a groove is formed in the inner wall of the front shell, and the FPC bonding seat is arranged in the groove.

Due to the adoption of the technical scheme, the beneficial effects are as follows:

the intelligent glasses comprise a left frame body, a right frame body and a pupil distance adjusting structure arranged between the left frame body and the right frame body; the pupil distance adjusting structure comprises a shell and a rotation changing straight line adjusting module arranged on the shell; the left side part and the right side part of the shell are respectively provided with a chute, and the end parts of the left frame body and the right frame body are in sliding connection with the corresponding chute; the rotary variable-linear adjusting module is used for driving the left frame body and the right frame body to move relatively or reversely;

according to the utility model, the rotation-to-straight line adjusting module is utilized to realize the relative or opposite movement of the left frame body and the right frame body, so that the pupil distance adjustment is realized, the wearing requirements of different users are met, and the universality and the experience of the users are improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and other embodiments may be obtained according to these drawings without inventive effort to a person of ordinary skill in the art.

FIG. 1 is a schematic diagram of the structure of the smart glasses of the present utility model;

FIG. 2 is a schematic view of the pupil distance adjustment structure of FIG. 1;

FIG. 3 is an exploded view of the structure of the smart glasses of the present utility model;

FIG. 4 is a schematic view of the structure of the FPC bonding base of FIG. 3;

FIG. 5 is a state reference diagram of the smart glasses in a first state;

FIG. 6 is a state reference diagram of the smart glasses in a second state;

the device comprises a 1-left frame body, a 2-right frame body, a 3-interpupillary distance adjusting structure, a 31-shell body, a 311-sliding groove, a 312-avoidance opening, a 313-front shell, a 3131-groove, a 314-rear shell, a 32-rotation-to-straight line adjusting module, a 321-rotation operation piece, a 3211-operation part, a 3212-screw part, a 322-moving sleeve, a 3221-cylindrical body, a 3222-mounting plate part, a 33-limiting retaining wall, a 34-supporting seat, a 341-arc groove, a 4-connecting arm, a 5-FPC bonding seat, a 51-body, a 52-ear seat, a 53-arc avoidance groove, a 531-first groove section, a 532-second groove section and a 533-limiting step surface.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

In the present utility model, the directional indication means, for example, front and rear, up and down, left and right, and the like, and the relative positional relationship between the respective members in the normal wearing posture. If the gesture changes, the directional indication changes accordingly.

In addition, if there is a description of "first", "second", etc. in the embodiments of the present utility model, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present utility model.

As collectively shown in fig. 1 to 6, a basic embodiment of the present utility model exhibiting a main concept discloses an intelligent glasses including a left frame 1 and a right frame 2; the pupil distance adjusting structure 3 is arranged between the left frame body 1 and the right frame body 2; the interpupillary distance adjusting structure 3 comprises a shell 31 and a rotation straightening adjusting module 32 arranged on the shell 31; the left and right side parts of the shell 31 are respectively provided with a chute 311, and the end parts of the left frame body 1 and the right frame body 2 are in sliding connection with the corresponding chute 311; the rotary straightening adjusting module 32 is used for driving the left frame body 1 and the right frame body 2 to move relatively or oppositely. The structure is simple and compact, the left frame body and the right frame body can move relatively or reversely only by utilizing the rotary variable-straight-line adjusting module, the pupil distance adjustment is further realized, the wearing requirements of different users can be met, and the universality and the experience of the users are improved.

In one embodiment, the rotary variable linear adjustment module 32 includes a rotary operating member 321 and two moving sleeves 322; the rotation operation member 321 includes an operation portion 3211 and screw portions 3212 located on both sides of the operation portion 3211; the screw threads of the two screw portions 3212 are opposite in rotation direction; the moving sleeves 322 are screwed on the corresponding screw portions 3212; the ends of the left frame body 1 and the right frame body 2 are fixedly connected with corresponding movable sleeves 322 respectively. When the rotation operation member 321 rotates, the moving sleeve 322 moves in the left-right direction under the condition that rotation is restricted (the sliding groove 311 restricts rotation of the left frame 1 and the right frame 2), and then drives the left frame 1 or the right frame 2 to move; and the pupil distance adjustment is realized.

Wherein, the rotation operation piece 321 can be selected as an integral structure; the screw rod can also be in a split structure, and comprises a roller and a screw rod, wherein the middle part of the screw rod is in interference fit with a central hole on the roller, the two ends of the screw rod extend out of the roller, the roller is an operation part 3211 defined above, and the two ends of the screw rod are screw rod parts defined above.

In some embodiments (as shown in fig. 2), the housing 31 is provided with a relief port 312 from which the operation portion 3211 partially extends; with this arrangement, the user can manually move the operation portion 3211 to rotate the rotation operation member 321. In other embodiments (not shown), a driving member for driving the rotation operation member 321 to rotate is provided in the housing 31; with this arrangement, automatic rotation of the rotation operation member 321 can be achieved.

In another embodiment, the housing 31 includes a front shell 313 and a rear shell 314 (alternatively, the front shell is fixed by dispensing, and alternatively, the rear shell 314 is clamped), two limiting retaining walls 33 are disposed on an inner wall of the rear shell 314 at intervals, and each limiting retaining wall 33 is used for limiting the corresponding moving sleeve 322 (preventing the moving sleeve 322 from being separated from the screw portion 3212 due to excessive travel); i.e. two limit stops 33 are respectively located on opposite sides of the two moving sleeves 322.

In another embodiment, the moving sleeve 322 includes a cylindrical body 3221 and two mounting plate portions 3222 arranged symmetrically up and down on an outer peripheral wall of the cylindrical body 3221; the mounting plate portion 3222 is fixedly connected to the left frame 1 or the right frame 2. Preferably, the left frame body 1 and the right frame body 2 respectively comprise a front frame and a rear frame which are buckled together (the front frame and the rear frame can be fixed by selective dispensing and can be clamped alternatively); two connecting arms 4 are respectively arranged at the opposite ends of the two front frames at intervals up and down, and the connecting arms 4 are fixedly connected with the corresponding mounting plate parts 3222.

In another embodiment, two supporting seats 34 are disposed on the inner wall of the rear housing 314 at intervals, and the two supporting seats 34 are located between the two limiting retaining walls 33; the supporting seat 34 is provided with an arc groove 341 which is matched with the cylindrical body 3221 (the cylindrical body 3221 and the arc groove 341 are coaxially arranged); and the mounting plate portion 3222 is abutted against the end faces of the supporting seats 34 on two sides of the corresponding arc-shaped groove 341, so that the arc-shaped groove 341 can be used for guiding the moving sleeve 322 to ensure that the moving sleeve moves accurately along the axial direction.

In another embodiment, an FPC bonding pad 5 for fixing an FPC board is provided on an inner wall of the front housing 313; by the arrangement, the FPC board is prevented from being broken in the movement process. Preferably, the FPC bonding seat 5 comprises a body 51, two ear seats 52 are arranged at intervals on one side of the body 51 facing the interpupillary distance adjusting structure 3, the operation part 3211 is positioned in a space defined by the two ear seats 52, and an arc avoidance groove 53 is arranged at the end part of the ear seat 52; so set up, can be convenient for install, effectively prevent to take place to interfere in the installation. Further preferably, the arcuate relief slot 53 includes a first slot segment 531 and a second slot segment 532; the first groove section 531 is matched with the screw portion 3212, and the second groove section 532 is matched with the moving sleeve 322; a limiting step surface 533 for limiting the corresponding moving sleeve 322 is formed between the first groove section 531 and the second groove section 532; with this arrangement, the movement stroke of the movement sleeve 322 can be further ensured. Further preferably, a groove 3131 is provided on an inner wall of the front case 313, and the fpc bonding pad 5 is provided in the groove 3131; the rationality of space utilization is increased.

In still other embodiments (not shown), the rotary straightening adjusting module 32 comprises a rotary gear and two racks which are positioned at two sides of the rotary gear and meshed with the rotary gear, and the ends of the left frame body 1 and the right frame body 2 are respectively and fixedly connected with the corresponding racks; the rotary gear rotates, and the two racks move relatively or oppositely, so that the left frame body 1 and the right frame body 2 are driven to move; and the pupil distance adjustment is realized. Any rotation-to-linear adjustment module 32 that can change a rotation motion into a linear motion and drive the left frame 1 and the right frame 2 to move is suitable for the present utility model, and is not specifically shown herein.

The working principle of the device is briefly described based on the above structure:

when the user needs to increase the distance between the left frame 1 and the right frame 2 (the pupil distance is increased), the operation part 3211 is pushed forward to rotate the rotary operation member 321 forward, and the two moving sleeves 322 move back to further drive the left frame 1 and the right frame 2 to move back to back (see fig. 6, and the moving sleeve 322 abuts against the limit retaining wall 33 during the maximum stroke).

When the user needs to adjust the distance between the left frame 1 and the right frame 2 (the pupil distance is adjusted), the operation part 3211 is reversed to rotate the rotary operation member 321 reversely, and the two moving sleeves 322 move relatively, so as to drive the left frame 1 and the right frame 2 to move relatively (see fig. 5, at the time of the minimum stroke, the moving sleeves 322 are abutted against the limit step surface 533).

In this specification, each embodiment is described in a progressive or parallel manner, and each embodiment is mainly described by a difference from other embodiments, and identical and similar parts between the embodiments are mutually referred.

In conclusion, the utility model has strong universality, can meet the wearing requirements of different users, and improves the experience of the users.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (10)

1. An intelligent glasses comprises a left frame body and a right frame body; the device is characterized by further comprising a pupil distance adjusting structure arranged between the left frame body and the right frame body; the pupil distance adjusting structure comprises a shell and a rotation variable-straight line adjusting module arranged on the shell; the left side part and the right side part of the shell are respectively provided with a chute, and the end parts of the left frame body and the right frame body are in sliding connection with the corresponding chute;

the rotary variable-linear adjusting module is used for driving the left frame body and the right frame body to move relatively or oppositely.

2. The smart glasses according to claim 1, wherein the rotational-to-linear adjustment module comprises a rotational operator and two moving sleeves;

the rotary operation piece comprises an operation part and screw parts positioned at two sides of the operation part; the screw threads of the two screw parts are opposite in rotation direction;

the movable sleeves are in threaded connection with the corresponding screw rod parts; the ends of the left frame body and the right frame body are respectively and fixedly connected with the corresponding movable sleeve.

3. The pair of smart glasses according to claim 2, wherein a driving member for driving the rotation operation member to rotate is provided in the housing; or, the shell is provided with an avoidance port for the operation part to extend out.

4. The pair of intelligent glasses according to claim 2, wherein two limiting retaining walls are arranged in the shell at intervals, and each limiting retaining wall is used for limiting the corresponding movable sleeve.

5. The pair of smart glasses according to claim 2, wherein the moving sleeve includes a cylindrical body and two mounting plate sections symmetrically provided on an outer peripheral wall of the cylindrical body; the mounting plate part is fixedly connected with the left frame body or the right frame body.

6. The intelligent glasses according to claim 5, wherein two supporting seats are arranged on the inner wall of the rear side of the shell at intervals, and arc-shaped grooves matched with the cylindrical body are arranged on the supporting seats; and the mounting plate part is abutted with the end surfaces of the supporting seats at the two sides of the corresponding arc-shaped groove.

7. The smart glasses according to claim 5, wherein the left and right frames respectively include a front frame and a rear frame that are snapped together;

two connecting arms are respectively arranged at the opposite ends of the front frame at intervals, and the connecting arms are fixedly connected with the corresponding mounting plate parts.

8. The intelligent glasses according to claim 2, wherein the front side inner wall of the housing is provided with an FPC bonding seat, the FPC bonding seat comprises a body, two ear seats are arranged at intervals on one side of the body facing the interpupillary distance adjusting structure, the operation part is located in a space defined by the two ear seats, and an arc avoidance groove is formed in the end part of each ear seat.

9. The smart glasses according to claim 8, wherein the arc avoidance slot comprises a first slot section and a second slot section; the first groove section is matched with the screw rod part, and the second groove section is matched with the movable sleeve; and a limiting step surface for limiting the corresponding movable sleeve is formed between the first groove section and the second groove section.

10. The pair of smart glasses according to claim 8, wherein the housing comprises a front housing and a rear housing that are fastened together, a groove is provided on an inner wall of the front housing, and the FPC bonding pad is disposed in the groove.