CN112596241A - Intelligent glasses - Google Patents

Abstract

The application discloses intelligent glasses, which comprise a glasses body, two glasses legs and at least one cable assembly, wherein the cable assembly comprises a cable and a wiring harness clip; the cable is arranged on one of the temples, the wire harness clip is arranged on the other of the temples, and the wire harness clip detachably clips the cable. In the intelligent glasses of this application, the supplementary mirror leg of cable is worn intelligent glasses at user's overhead, and through the length of adjusting the cable, can realize adjusting the elasticity of wearing of intelligent glasses, and this has simplified the structure of intelligent glasses, has lightened weight to the use impression of intelligent glasses has been improved from this.

Description

Intelligent glasses

Technical Field

The application relates to intelligence wearing equipment field especially relates to an intelligence glasses.

Background

Smart glasses generally refer to MR glasses (mixed reality glasses), AR glasses (augmented reality glasses), and the like. The intelligent glasses integrate real world information and virtual world information content through a computer technology, and bring new feelings to users of the intelligent glasses.

In order to facilitate the wearing of the smart glasses, in the prior art, the smart glasses are generally constructed in the form of a head band, and an internal stretchable structure is provided on the head band to adjust the tightness of the head band. However, the structure is very complex and the weight is also large, which results in poor use feeling of the smart glasses.

Disclosure of Invention

The application discloses intelligence glasses to there is the comparatively complicated and great problem of weight of structure in the intelligence glasses of solving among the correlation technique.

In order to solve the technical problem, the technical scheme disclosed by the application is as follows:

the intelligent glasses comprise a glasses body, two glasses legs and at least one cable assembly, wherein the cable assembly comprises a cable and a wiring harness clip; the cable is arranged on one of the temples, the wire harness clip is arranged on the other of the temples, and the wire harness clip detachably clips the cable.

Further, when the number of the cables is one, the cables are arranged on one of the temples, and the wire harness is sandwiched between the other of the temples.

Further, when the number of the cables is two, both the temples are provided with the cables and the wire harness clip.

Further, the wire harness clip is detachably fixed to the temple; or, the wire harness clip and the glasses leg are integrally formed.

Furthermore, the wire harness clamp comprises a base and two elastic clamping arms which are connected to the base and are oppositely arranged; at least the two elastic clamping arms form a clamping space.

Further, a guide surface is formed on the elastic holding arm.

Further, the inner surface of the elastic clamping arm is provided with a friction pattern.

Further, the friction pattern is a plurality of protrusions.

Further, the height of the protrusion is between 0.03mm and 0.2 mm.

Further, the base includes the projection, the projection sets up one side of elasticity centre gripping arm be constructed with the mounting hole on the mirror leg, the projection joint is installed in the mounting hole.

Further, the number of the convex columns is at least two, and the convex columns are distributed at intervals.

Further, the convex column is provided with a shoulder extending outwards in the radial direction, and the shoulder is clamped at the edge of the mounting hole.

Furthermore, convex stop blocks are arranged around the mounting hole at intervals, and after the convex columns are clamped and mounted in the mounting hole, the shoulders are clamped and connected into gaps between the adjacent stop blocks.

Further, the number of the convex columns is two, a plurality of mounting holes which are arranged along the circumference are formed in the glasses leg, and the two convex columns can be respectively and optionally plugged into the two radially opposite mounting holes, so that the angle of the wire harness clip can be adjusted in a limited mode relative to the glasses leg.

Further, the number of the wire harness clips is at least two, and the wire harness clips are distributed at intervals along the extending direction of the temple.

Further, the temple arm includes a first free end and a first connection end, when the number of the wire harness clips is two, wherein a first wire harness clip is disposed near the first free end and an angle thereof is fixed with respect to the temple arm, and a second wire harness clip is disposed near the first connection end and an angle thereof is freely adjusted or limitedly adjusted with respect to the temple arm.

Compared with the prior art, the beneficial effects of this application are as follows:

when wearing the intelligent glasses of this application, the supplementary mirror leg of cable is worn intelligent glasses on user's head. In addition, by adjusting the length of the cable, the wearing tightness of the intelligent glasses can be adjusted. Therefore, the intelligent glasses do not need to be constructed into a head band shape, and an extra telescopic structure for adjusting the tightness is not needed, so that the structure of the intelligent glasses is simplified, the weight is reduced, and the use feeling of the intelligent glasses is improved.

Drawings

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

fig. 1 schematically shows smart glasses according to a first embodiment of the present application;

fig. 2 schematically shows smart glasses according to a second embodiment of the present application;

FIG. 3 schematically illustrates a harness clip of the smart eyewear;

FIG. 4 is a view in the direction A of FIG. 3;

FIG. 5 schematically illustrates a first manner of mounting the harness clip on the temple;

FIG. 6 schematically illustrates a second manner of mounting the harness clip on the temple;

FIG. 7 is a cross-sectional schematic view of a temple bar;

fig. 8 schematically shows the stopper around the mounting hole.

1-smart glasses;

100-mirror body, 101-mirror frame, 102-mirror;

200-temple, 201-first connection end, 202-first free end, 203-gap, 204-outer shell, 205-inner shell, 206-mounting hole, 207-mounting hole, 208-stop, 209-gap;

300-a cable;

400-harness clip, 411-first harness clip, 412-second harness clip, 401-base, 402-elastic clamping arm, 4021-second connecting end, 403-guide surface, 404-friction pattern, 405-convex column, 407-shoulder;

2-smart glasses.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the technical solutions of the present application will be described in detail and completely with reference to the following specific embodiments of the present application and the accompanying drawings. It should be apparent that the described embodiments are only some of the embodiments of the present application, 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 application.

Referring to fig. 1 to 8, the present embodiment discloses smart glasses, which include a glasses body 100, glasses legs 200, and a cable assembly. The cable assembly includes a cable 300 and a harness clip 400.

As shown in fig. 1, the temples 200 are two in number and are respectively connected to the lens bodies 100 through first connection ends 201, and in the unfolded state of the temples 200, one ends (i.e., the first connection ends 201) of the temples 200 are connected to the lens bodies 100, and the other ends (i.e., the first free ends 202) of the temples 200 extend from the lens bodies 100 in a direction away from the lens bodies 100.

Among them, in one cable assembly, the cable 300 is provided on one of the temples 200, and the wire harness clip 400 is provided on the other of the temples 200. The harness clip 400 detachably clips the cable 300 such that the cable 300, the two temples 200, and the harness clip 400 cooperate to form a wearing structure.

Optionally, a wire harness clip 400 is provided on one of the temples 200, and one end of the cable 300 extends outward from the other of the temples 200. The cable 300 is used to connect a terminal (e.g., a computer), the cable 300 may be secured to the harness clip 400, and the cable 300 may extend along the other temple 200, i.e., the cable 300 may be secured to the harness clip 400 on the other temple 200 extending across the gap 203 between the first free ends 202 of the two temples 200.

When wearing the smart glasses 1 of the present application, the cable 300 also assists the temple 200 to wear the smart glasses 1 on the head of the user. In addition, by adjusting the length of the cable 300, it is possible to adjust the wearing tightness of the smart glasses 1. Therefore, the intelligent glasses 1 do not need to be constructed into a head band shape, and an extra telescopic structure for adjusting the tightness is not needed, so that the structure of the intelligent glasses 1 is simplified, the weight is reduced, and the use feeling of the intelligent glasses 1 is improved.

Meanwhile, the intelligent glasses disclosed by the application can more fully utilize the cable 300 configured by the intelligent glasses, so that the cable 300 can also form a wearing structure worn by a user under the condition of playing an electric connection role, and the effect of one object for multiple purposes is achieved.

In an alternative, when the number of the cables 300 is one, the cables 300 are disposed on one temple, and the harness clip 400 is clipped on the other temple 200. This structure is relatively simple.

Of course, the wire harness clip 400 may be two, and both wire harness clips 400 are provided on the other temple 200, as shown in fig. 2. The cable 300 can be detachably held by two harness clips 400 at the same time, in which case the cable 300 can be held more firmly.

In another alternative, when the number of cables 300 is two, both temples 200 are provided with the cables 300 and the harness clip 400. For example, the smart glasses include two cable assemblies including two cables 300 and two harness clips 400, the two cables 300 and the two harness clips 400 being disposed on the two temples 200, respectively. In this case, the two cables 300 and the two harness clips 400 are respectively engaged, so that a more stable wearing structure can be formed.

Of course, in the case where the number of the cables 300 is two and the two temples 200 are both provided with the cables 300 and the harness clips 400, the number of the cables 300 and the harness clips 400 may not be equal, for example, one cable 300 and two harness clips 400 are provided on each temple 200, so that each cable 300 may be fixed by two harness clips 400, thereby enabling a more stable wearing structure to be further formed.

Alternatively, only one wire harness clip 400 may be provided on one temple 200 such that the cable 300 extends from the temple 200 where the wire harness clip 400 is not provided, and is fixed to the wire harness clip 400. Further, one wire harness clip 400 may be provided on each of the two temples 200, and the cable 300 may be extended from either one of the temples 200 and fixed to the wire harness clip 400 of the other temple 200, or the cable 300 may be extended from both of the temples 200 and fixed to the wire harness clips 400 of the other temples 200, respectively.

In this application embodiment, the number of cables 300 can be two, they extend outward from the mirror leg 200 that sets up relatively respectively, two mirror legs 200 all are provided with the pencil clamp 300, under this condition, all be provided with cable 300 and pencil clamp 400 on two mirror legs 200, when two cables 300 play a role simultaneously, the user is realizing adjusting the basis of the elasticity of wearing of intelligent glasses 1, can also make intelligent glasses 1 fixed more firm in the use, thereby can avoid the user in the in-process of using intelligent glasses 1 because intelligent glasses 1 falls the damage of intelligent glasses 1 that leads to, and then influence user experience.

In the embodiment of the present application, the wire harness clip 400 may be detachably fixed to the temple 200, thereby providing it with a detachable characteristic, facilitating maintenance, replacement, etc. of the wire harness clip 400. Of course, the harness clip 400 may be integrally formed with the temple 200, thereby simplifying assembly and facilitating manufacture.

In an embodiment of the present application, the mirror body 100 can include a frame 101, a lens 102 mounted on the frame 101, and a projection assembly (not shown) disposed within the frame 101. The projection component is used, for example, to project virtual world information on the lens 102. The projection assembly may include, for example, a circuit board, a computing unit integrated on the circuit board, an optical module, a sensor, and the like. The sensors may include slam camera, world camera, light sensors, distance sensors, IMU sensors, geomagnetic sensors, and the like. The sensor may also be integrated into the circuit board or may be electrically connected to the circuit board via signal lines. In addition, an audio assembly may be provided on the temple 200 and/or the frame 101. The embodiment of the present application does not limit the specific structure of the mirror body 100.

The cable 300 may be used to transmit image information to the projection assembly, and thus one end of the cable 300 may be electrically connected to the projection assembly (e.g., a circuit board) and the other end may be electrically connected to an information terminal (e.g., a control box or a cellular phone).

The cable 300 may extend inside the temple 200 or outside the temple 200. Where the cable 300 extends inside the temple 200, an exit may be configured at the first free end 202 of the temple 200 such that the cable 300 extends from the inside of the temple 200. In addition, the cable 300 is pre-set with a margin at the temple 200 so that the cable 300 can be pulled from the outside of the temple 200.

The structure and mounting manner of the wire harness clip 400 will be described below by taking one temple 200 as an example.

Fig. 3 schematically shows the overall structure of the wire harness clip 400, and fig. 4 is a view from the direction a of fig. 3. As shown in fig. 3 and 4, the harness clip 400 includes a base 401 and two resilient clip arms 402. The base 401 is positioned on the temples 200. A resilient clamp arm 402 is attached to the base 401, the two resilient clamp arms 402 are oppositely disposed, and the cable 300 may be clamped by the two resilient clamp arms 402. In a specific embodiment, at least two resilient gripping arms 402 form a gripping space, as shown in fig. 3, the base 401 and two resilient gripping arms 402 may also form a gripping space. Alternatively, the second connecting ends 4021 of the two resilient gripping arms 402 are connected to each other to form a generally U-shape or C-shape, and the second free ends of the two resilient gripping arms 402 are spaced apart to form an opening of the gripping space. In this way, the degree of expansion of the resilient clamp arms 402 can be varied to accommodate the diameter variation of the cable 300, so that a cable 300 of an appropriate diameter range can be stably clamped by the resilient clamp arms 402 (or the harness clamp 400) without changing a different harness clamp 400, for example, the diameter of the cable 300 can be between 3mm and 6 mm. This facilitates the use by the user.

In one particular embodiment, the two resilient clamp arms 402 and the base 401 are integrally formed. For example, the material of the elastic clamp arm 402 and the base 401 is Polyoxymethylene (POM), and is integrally molded by injection molding. Thus, the manufacturing process of the wire harness clip 400 can be greatly simplified, and the production cost is reduced.

In further embodiments, the thickness of the resilient clamping arm 402 may be 1mm to 1.3 mm. It has been unexpectedly found that resilient clamping arms 402 of this thickness have superior resiliency and clamping force.

To facilitate insertion of the cable 300 between the two resilient clamping arms 402, a guide surface 403 may also be configured on the resilient clamping arms 402. In a particular embodiment, the guide surface 403 may resemble a chamfer. Alternatively, the guide surface 403 may be a guide slope, a guide arc surface, or the like, and the specific shape of the guide surface 403 is not limited by the embodiments of the present disclosure.

In addition, to further increase the clamping force of the resilient clamping arm 402 (or the wire harness clip 400), a friction pattern 404 is configured on the inner surface of the resilient clamping arm 402. For example, the friction pattern 404 is a plurality of protrusions. More specifically, the height of the protrusions may be between 0.03mm and 0.2 mm. This high protrusion creates a suitable frictional force with the cable 300 with little effect on the adaptability of the harness clip 400 to cables 300 of different diameters. In addition, the protrusions at the second connecting end 4021 of the elastic clamping arm 402 are larger in area and more sparsely arranged than the protrusions at other areas of the elastic clamping arm 402, so that there is a proper friction between the elastic clamping arm 402 and the cable 300, and at the same time, the cable 300 can be pulled to adjust the wearing tightness of the smart glasses 1.

In one embodiment, the wire harness clip 400 and the temple 200 may be integrally formed such that the angle of the wire harness clip 400 is fixed with respect to the temple 200. For example, the opening direction of the harness clip 400 may be perpendicular to the extension direction of the temple 200 (as shown in fig. 1), and the extension direction of the cable 300 is substantially parallel to the temple 200. In this case, the harness clip 400 may always comb the cable 300 to extend substantially in the direction of the temple 200, which may facilitate the user to pull the cable 300 to adjust the wearing tightness of the smart glasses 1.

To achieve the above structure, the temple 200 may include an outer case 204 and an inner case 205, for example. The inner shell 205 is a soft material, such as a silicon rubber material; the housing 204 is a rigid material, such as the same material used for the harness clip 400 (e.g., polyoxymethylene as described above). Thus, the harness clip 400 and the outer shell 204 may be integrally molded by injection molding, and then the inner shell 205 and the outer shell 204 may be assembled together to form the completed temple 200. It is to be understood that in this case, preferably, a receiving space capable of receiving the cable 300 may be provided between the inner case 205 and the outer case 204 so that the cable 300 is routed inside the temple 200.

In further embodiments, the harness clip 400 and the temple 200 may be separate elements and assembled together.

As a first way of mounting the wire harness clip 400 on the temple 200, as shown in fig. 5, the base 401 of the wire harness clip 400 includes a boss 405, the boss 405 being provided on one side of the elastic clip arm 402. A mounting hole 206 is configured on the temple 200. The boss 405 is snap-fit into the mounting hole 206. The post 405 may be one. With this structure, when wearing the smart glasses 1, the user can rotate the harness clip 400 as needed, and thereby adjust the extending direction of the cable 300, so as to avoid the cable 300 from causing obstacles to the user's activities.

In the embodiment shown in fig. 3, the number of posts 405 is at least two and are spaced apart. In this way, the probability of the wire harness clip 400 deflecting can be reduced as much as possible, thereby further improving the wearing feeling of the smart glasses 1.

Preferably, a radially outwardly extending shoulder 407 is formed on the stud 405, which shoulder 407 has a certain elasticity so as to be compressible radially inwards and spring open radially outwards after the pressure has been released. Thus, in the case of the mounting hole 206 being configured on the temple 200, the stud 405 can be pressed into the mounting hole 206, during which the shoulder 407 is pressed radially inwards. After the shoulder 407 passes through the mounting hole 206, it springs radially outward to snap over the edge of the mounting hole 206, thereby completing the installation.

In another embodiment, raised stops 208 are spaced around mounting hole 206, and after post 405 is snap-fitted into mounting hole 206, shoulder 407 snaps into gap 209 between adjacent stops 208 (as shown in FIG. 8). Thus, the harness clip 400 does not rotate arbitrarily, and thus the extending direction of the cable 300 does not change, which further improves the feeling of use.

Fig. 6 schematically shows a second way of mounting the harness clip 400 on the temple 200. Similar to that shown in fig. 3, a plurality of circumferentially arranged mounting holes 207 are formed in the temple 200, and two studs 405 can optionally be respectively inserted into two diametrically opposite mounting holes 207, so that the angle of the harness clip 400 can be adjusted in a limited manner relative to the temple 200. For example, the circumferential angle between adjacent mounting holes 207 may be 30 °. Thus, when the stud 405 is inserted into the two mounting holes 207 of 0 ° (i.e., in the extending direction of the temple 200), the opening direction of the wire harness clip 400 is parallel to the extending direction of the temple 200, and the extending direction of the cable 300 is substantially perpendicular to the temple 200; when the convex column 405 is inserted into the two mounting holes 207 with the angle of 60 degrees, the opening direction of the wire harness clip 400 is oblique, and the extending direction of the cable 300 forms a certain angle with the temple 200; when the stud 405 is inserted into the two mounting holes 207 of 90 °, the opening direction of the wire harness clip 400 is perpendicular to the temple 200, and the extending direction of the cable 300 is substantially parallel to the temple 200. After the boss 405 is inserted into a specific mounting hole, the wire harness clip 400 cannot be rotated, thereby achieving a limited adjustment of the angle of the wire harness clip 400 with respect to the temple 200. Thus, when wearing the smart glasses 1, the user can not only adjust the extending direction of the cable 300 according to the requirement, but also avoid the change of the extending direction of the cable 300 caused by the accidental rotation of the harness clip 400, which further improves the use feeling.

Fig. 2 schematically shows smart glasses 2 according to a second embodiment of the present application. The smart glasses 2 are similar to the smart glasses 1 as a whole, except that a plurality of harness clips 400 are provided at one temple 200, for example, the number of the harness clips 400 is at least two. These wire harness clips 400 are spaced apart in the extending direction of the temples 200. In this way, the cable 300 may be further maintained to extend in the direction of the temples 200 to further facilitate the user wearing the smart glasses 2.

In a specific embodiment, when the number of the wire harness clips 400 is two, the two wire harness clips 400 are a first wire harness clip 411 and a second wire harness clip 412, respectively, the first wire harness clip 411 is close to the first free end 202 of the temple 200 and the angle thereof is fixed with respect to the temple 200, and the second wire harness clip 412 is close to the first connection end 201 of the temple 200 and the angle thereof is freely adjustable or limitedly adjustable with respect to the temple 200. With this arrangement, not only can the cable 300 be ensured to extend from one temple 200 to the other temple 200 (for example, through the first harness clip 411), and the wearing tightness of the smart glasses 2 can be adjusted, but also the user can adjust the extending direction of the cable 300 away from the smart glasses 2 through the second harness clip 412 according to the requirement, so as to avoid obstructing the user's activities, thus being able to further improve the use feeling.

The above description is only an example of the present application and is not intended to limit the present application. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application should be included in the scope of the claims of the present application.

Claims (16)

1. The intelligent glasses comprise a glasses body, two glasses legs and at least one cable assembly, wherein the cable assembly comprises a cable and a wiring harness clip; the cable is arranged on one of the temples, the wire harness clip is arranged on the other of the temples, and the wire harness clip detachably clips the cable.

2. The smart glasses according to claim 1, wherein when the number of the cables is one, the cables are provided on one of the temples, and the wire harness is sandwiched on the other of the temples.

3. The smart eyewear of claim 1, wherein when the number of cables is two, both of the temples are provided with the cables and the harness clip.

4. The smart glasses according to claim 2 or 3, wherein the wire harness clip is detachably fixed on the temple; or, the wire harness clip and the glasses leg are integrally formed.

5. The smart eyewear of claim 4, wherein the harness clip comprises a base and two opposing resilient clip arms connected to the base; at least the two elastic clamping arms form a clamping space.

6. The smart eyewear of claim 5, wherein a guide surface is configured on the resilient gripping arms.

7. The smart eyewear of claim 6, wherein the resilient gripping arms are configured with a friction pattern on an inner surface thereof.

8. The smart eyewear of claim 7, wherein the friction pattern is a plurality of protrusions.

9. The smart eyewear of claim 8, wherein the protrusions are between 0.03mm and 0.2mm in height.

10. The smart glasses of claim 9, wherein the base comprises a boss disposed on one side of the elastic grip arm, and mounting holes are configured on the glasses legs, and the boss is snap-mounted in the mounting holes.

11. The smart eyewear of claim 10, wherein the number of posts is at least two and spaced apart.

12. The smart eyewear of claim 11, wherein the post is configured with a radially outwardly extending shoulder that snaps over an edge of the mounting aperture.

13. The smart eyewear of claim 12, wherein raised stops are spaced around the mounting apertures, the shoulders snap into gaps between adjacent stops after the posts are snap fit into the mounting apertures.

14. The smart eyewear of claim 12, wherein the number of posts is two, and a plurality of circumferentially arranged mounting holes are configured on the temple, and wherein two of the posts are respectively optionally insertable into two of the radially opposed mounting holes, such that the angle of the harness clip is limitedly adjustable relative to the temple.

15. The smart glasses according to claim 1, wherein the harness clip is at least two in number and spaced apart in an extending direction of the temple.

16. The smart eyewear of claim 15, wherein the temple arm includes a first free end and a first connection end, when the number of harness clips is two, wherein a first harness clip is disposed proximate the first free end and has an angle fixed with respect to the temple arm, and a second harness clip is disposed proximate the first connection end and has an angle freely adjustable or limitedly adjustable with respect to the temple arm.

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