CN112855686B

CN112855686B - Pressure maintaining jig for augmented reality glasses and pressure maintaining method thereof

Info

Publication number: CN112855686B
Application number: CN202110004754.4A
Authority: CN
Inventors: 石保强; 王军; 刘阳
Original assignee: Shining Reality Wuxi Technology Co Ltd
Current assignee: Shining Reality Wuxi Technology Co Ltd
Priority date: 2021-01-04
Filing date: 2021-01-04
Publication date: 2022-07-22
Anticipated expiration: 2041-01-04
Also published as: CN112855686A

Abstract

The invention discloses a pressure maintaining jig for augmented reality glasses and a pressure maintaining method thereof, wherein the pressure maintaining jig comprises a glasses body pressure maintaining assembly and a glasses leg pressure maintaining assembly, the glasses body pressure maintaining assembly is provided with a first matching part, the glasses leg pressure maintaining assembly is provided with a first connecting part, and the first matching part is detachably connected with the first connecting part; the lens body pressure maintaining assembly comprises a first bearing seat and a first pressing part, wherein the first bearing seat can be detachably connected with the first pressing part, and the first pressing part can be pressed on the first bearing seat; the first bearing seat is provided with a first pressure maintaining cavity, the first pressing piece is provided with a second pressure maintaining cavity, and the first pressure maintaining cavity and the second pressure maintaining cavity are respectively matched with the outline of the lens body and used for performing pressure maintaining treatment on the lens body; mirror leg pressurize subassembly includes that the second bears seat and second to press and cover the piece, and the second bears the seat and can dismantle with the second to press and cover the piece and be connected. Above-mentioned scheme can solve the problem that complex operation, the difficult uniform pressure that exists of present pressurize mode.

Description

Pressure maintaining jig for augmented reality glasses and pressure maintaining method thereof

Technical Field

The invention relates to the technical field of augmented reality glasses processing, in particular to a pressure maintaining jig for augmented reality glasses and a pressure maintaining method thereof.

Background

When the augmented reality glasses (such as AR glasses, VR glasses, etc.) are assembled in production, since some parts are inconvenient to design a button, glue is generally used to bond the parts, for example, because the temple of the augmented reality glasses usually includes a front shell and a back shell, and the front shell and the back shell need to be bonded by the glue.

After the glue is glued between the parts, in order to ensure the bonding stability of the parts, pressure maintaining treatment must be carried out on each part, the current pressure maintaining mode for the augmented reality glasses is to clamp the bonded parts through a plurality of fixing clamps, but the fixing clamps are complex in operation, and meanwhile, the fixing clamps are difficult to uniformly apply pressure to the parts during clamping, so that the local bonding defect of the augmented reality glasses is easily caused.

Disclosure of Invention

The invention discloses a pressure maintaining jig for augmented reality glasses and a pressure maintaining method thereof, and aims to solve the problems that the operation is complicated and uniform pressure application is difficult in the existing pressure maintaining mode.

In order to solve the problems, the invention adopts the following technical scheme:

in one aspect, the invention provides a pressure maintaining jig for augmented reality glasses, which comprises a glasses body pressure maintaining assembly and a glasses leg pressure maintaining assembly, wherein the glasses body pressure maintaining assembly is provided with a first matching part, the glasses leg pressure maintaining assembly is provided with a first connecting part, and the first matching part is detachably connected with the first connecting part;

the endoscope body pressure maintaining assembly comprises a first bearing seat and a first pressing piece, wherein the first bearing seat can be detachably matched with the first pressing piece, and the first pressing piece can be pressed on the first bearing seat; the first bearing seat is provided with a first pressure maintaining cavity, the first pressing part is provided with a second pressure maintaining cavity, and the first pressure maintaining cavity and the second pressure maintaining cavity are respectively matched with the outline of the endoscope body and are used for performing pressure maintaining treatment on the endoscope body;

the temple pressure maintaining assembly comprises a second bearing seat and a second pressing piece, the second bearing seat is detachably connected with the second pressing piece, and the second pressing piece can be pressed on the second bearing seat; the second bears the seat and is formed with third pressurize chamber, the second is pressed and is covered the piece and is formed with fourth pressurize chamber, third pressurize chamber with fourth pressurize chamber cooperates with the profile of mirror leg respectively, is used for right the mirror leg carries out the pressurize and handles.

On the other hand, the invention provides a pressure maintaining method, which is applied to the pressure maintaining jig; the method comprises the following steps:

preparing the augmented reality glasses to be subjected to pressure maintaining treatment;

placing the glasses body of the augmented reality glasses in a first pressure maintaining cavity of a first bearing seat, and pressing a first pressing piece on the first bearing seat so as to maintain the pressure of the glasses body in the first pressure maintaining cavity and a second pressure maintaining cavity;

connecting a glasses body pressure maintaining component and a glasses leg pressure maintaining component, placing the glasses legs of the augmented reality glasses in a third pressure maintaining cavity of a second bearing seat, and pressing a second pressing piece on the second bearing seat so as to maintain the pressure of the glasses legs in the third pressure maintaining cavity and a fourth pressure maintaining cavity;

standing and maintaining the pressure for a preset time;

and taking out the augmented reality glasses from the pressure maintaining jig.

The technical scheme adopted by the invention can achieve the following beneficial effects:

the invention discloses a pressure maintaining jig which comprises a mirror body pressure maintaining assembly and a mirror leg pressure maintaining assembly, wherein the mirror body pressure maintaining assembly comprises a first bearing seat and a first pressing piece, the first bearing seat is provided with a first pressure maintaining cavity, the first pressing piece is provided with a second pressure maintaining cavity, and the first pressure maintaining cavity and the second pressure maintaining cavity can be combined to form a mirror body pressure maintaining cavity when the first pressing piece is pressed on the first bearing seat; the temple pressure maintaining assembly comprises a second bearing seat and a second pressing piece, a third pressure maintaining cavity is formed in the second bearing seat, a fourth pressure maintaining cavity is formed in the second pressing piece, and the third pressure maintaining cavity and the fourth pressure maintaining cavity can be combined to form the temple pressure maintaining cavity when the second pressing piece is pressed on the second bearing seat. After the bonding, can place the mirror body in mirror body pressurize intracavity at augmented reality glasses to connect mirror body pressurize subassembly and mirror leg pressurize subassembly, place the mirror leg in mirror leg pressurize intracavity again, just so under the circumstances evenly carries out the pressurize to augmented reality glasses is whole simultaneously.

Compared with the prior art, the pressure maintaining jig disclosed by the invention is used for integrally coating the outside of the augmented reality glasses, so that the adhered parts can be uniformly pressed, and the local adhesion defect of the augmented reality glasses is further avoided; meanwhile, when the glasses are used, only the first pressing part is needed to be pressed on the first bearing seat, and the second pressing part is needed to be pressed on the second bearing seat, so that the pressure maintaining of the augmented reality glasses can be realized, and the operation is undoubtedly simplified.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic structural view of a pressure maintaining jig according to an embodiment of the present invention before assembly;

fig. 2 is a schematic structural view of the assembled pressure maintaining jig disclosed in the embodiment of the present invention;

FIG. 3 is an exploded view of a mirror pressure maintaining assembly according to an embodiment of the present invention;

FIG. 4 is a schematic view of an operating principle of a mirror pressure maintaining assembly according to an embodiment of the present invention;

FIG. 5 is an exploded view of a temple force-retaining assembly according to an embodiment of the present invention;

FIG. 6 is a schematic view illustrating the working principle of the temple pressure maintaining assembly according to the embodiment of the present invention;

fig. 7 is a schematic view illustrating a state of the pressure maintaining jig according to the embodiment of the present invention when the pressure maintaining jig maintains pressure on the augmented reality glasses;

description of the reference numerals:

100-augmented reality glasses,

200-mirror body pressure maintaining component, 210-first bearing seat, 211-first pressure maintaining cavity, 212-second matching part, 213-positioning projection, 213 a-first arc surface, 214-groove, 220-first pressing part, 221-second connecting part, 222-limiting part, 222 a-second arc surface, 223-notch, 230-first matching part,

300-temple pressure maintaining component, 310-second bearing seat, 311-third pressure maintaining cavity, 312-support, 313-cantilever, 320-second pressing piece, 321-first connecting end, 322-second connecting end, 330-damping hinge, 340-fastener and 350-first connecting part.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the specific embodiments of the present invention and the accompanying drawings. It is to be understood that the disclosed embodiments are merely exemplary of the invention, and are not intended to be exhaustive or exhaustive. 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 technical solutions disclosed in the embodiments of the present invention are described in detail below with reference to the accompanying drawings.

Referring to fig. 1 to 7, an embodiment of the invention discloses a pressure maintaining jig, which is suitable for performing pressure maintaining processing on augmented reality glasses 100. In this embodiment, the pressurize tool includes mirror body pressurize subassembly 200 and mirror leg pressurize subassembly 300, and wherein, mirror body pressurize subassembly 200 is used for carrying out the pressurize to augmented reality glasses 100's mirror body and handles, and mirror leg pressurize subassembly 300 is used for carrying out the pressurize to augmented reality glasses 100's mirror leg and handles.

It should be noted that the mirror body of the augmented reality glasses in the present embodiment generally includes a frame and an electronic device set disposed on the frame, and the electronic device set may include an optical device, a sound generating device, and the like.

Generally, there are various types of the augmented reality glasses 100, for example, the shape of the augmented reality glasses 100 can be changed, and at this time, the pressure maintaining jig of the embodiment can also change the shapes of the glasses body pressure maintaining component 200 and the temple pressure maintaining component 300 correspondingly to be adapted to the augmented reality glasses 100. The present embodiment does not limit the specific number of the temple socket members 300, which may be generally two to match the two temples of the conventional glasses, but of course, the augmented reality glasses 100 of the present embodiment include a single temple type, in which case the socket jig may include only one temple socket member 300.

In the conventional pressure maintaining method, the adhesive components on the augmented reality glasses 100 are clamped by the fixing clips which are distributed at intervals, and the adhesive components of the augmented reality glasses 100 are also subjected to spaced stress, so that the adhesive effect is better in a stress area, and the problem of the adhesive effect is undoubtedly existed in a non-stress area. In order to solve the above problem, the pressure maintaining jig of the embodiment can cover the augmented reality glasses 100 to achieve uniform pressure application, so as to optimize the adhesion effect.

Specifically, the mirror body pressure maintaining assembly 200 of the present embodiment includes a first bearing seat 210 and a first pressing member 220, wherein the first bearing seat 210 is detachably connected to the first pressing member 220, so as to conveniently realize the assembly relationship between the two, and the first pressing member 220 can be pressed on the first bearing seat 210, so that the first pressing member 220 can apply a pressing action toward the first bearing seat 210; the first seat 210 that bears is formed with first pressurize chamber 211, and first pressure maintaining piece 220 is formed with the second and keeps pressure the chamber, and first pressurize chamber 211 and second keep pressure chamber cooperate with the profile of the mirror body respectively, and when first pressure maintaining piece 220 pressfitting was in the first seat 210 that bears, first pressurize chamber 211 and the combination of second keep pressure chamber were the mirror body keep pressure chamber, and this mirror body keep pressure chamber is used for carrying out the pressurize to the mirror body and handles.

The first bearing seat 210 is a base member of the mirror body pressure maintaining assembly 200, and the mirror body can be partially accommodated in the first pressure maintaining cavity 211; when the first pressing member 220 is pressed on the first bearing seat 210, the first pressing member 220 covers the first pressure maintaining cavity 211, that is, the first pressing member 220 covers the lens body of the augmented reality glasses 100, and since the first pressing member 220 is provided with the second pressure maintaining cavity, the portion of the lens body exposed out of the first pressure maintaining cavity 211 can be accommodated in the second pressure maintaining cavity, at this time, the lens body is completely located in the lens body pressure maintaining cavity formed by combining the first pressure maintaining cavity 211 and the second pressure maintaining cavity, and is pressed and fixed by the first pressing member 220 and the first bearing seat 210, and the bonding part thereof is pressed to perform pressure maintaining treatment.

Meanwhile, the temple pressure maintaining assembly 300 of the present embodiment includes a second bearing seat 310 and a second pressing member 320, the second bearing seat 310 is detachably connected to the second pressing member 320, such that the assembly relationship between the two can be conveniently realized, and the second pressing member 320 can be pressed on the second bearing seat 310, such that the second pressing member 320 can apply a pressing action toward the second bearing seat 310; the second bears the weight of the seat 310 and is formed with third pressurize chamber 311, and the second is pressed and is covered 320 and is formed with fourth pressurize chamber, and third pressurize chamber 311 and fourth pressurize chamber cooperate with the profile of mirror leg respectively, and when the second pressed and is covered 320 and is pressed and is born the seat 310 in the second, second pressurize chamber 311 and fourth pressurize chamber make up mirror leg pressurize the chamber, and this mirror leg pressurize the chamber and be used for carrying out pressurize to the mirror leg.

Wherein, the second bearing seat 310 is a base member of the temple pressure maintaining assembly 300, and the temple can be partially accommodated in the third pressure maintaining cavity 311; when the second pressing member 320 is pressed on the second bearing seat 310, the second pressing member 320 covers the third pressure-maintaining cavity 311, that is, the second pressing member 320 covers the temple, and since the second pressing member 320 is provided with the fourth pressure-maintaining cavity, the part of the temple exposed out of the third pressure-maintaining cavity 311 can be accommodated in the fourth pressure-maintaining cavity, at this time, the temple is completely located in the temple pressure-maintaining cavity formed by the combination of the third pressure-maintaining cavity 311 and the fourth pressure-maintaining cavity, and is pressed and fixed by the second pressing member 320 and the second bearing seat 310, and the bonding member thereof is pressed to perform pressure-maintaining processing.

Since when the pressure maintaining jig of the present embodiment is used to perform the pressure maintaining process on the smart glasses 100, some parts of the smart glasses 100 may be interfered by the pressure maintaining jig, and even there is a problem that the smart glasses 100 cannot be loaded, for example, when the glasses body of the smart glasses 100 is placed in the glasses body pressure maintaining assembly 200, the glasses leg pressure maintaining assembly 300 interferes with the smart glasses 100, and it is inconvenient to place the glasses body in place. In order to solve the above-mentioned problems, in the present embodiment, the mirror body pressure holding assembly 200 has a first mating part 230, and the temple pressure holding assembly 300 has a first connecting part 350, and the first mating part 230 is detachably connected to the first connecting part 350.

With such a configuration, when the pressure maintaining jig of the embodiment is used for performing pressure maintaining processing on the smart glasses 100, the glasses body can be placed in the pressure maintaining assembly 200 of the glasses body, and then the temple pressure maintaining assembly 300 is connected to the pressure maintaining assembly 200 of the glasses body, so that the temples can be easily placed in the temple pressure maintaining assembly 300 without being interfered by the pressure maintaining assembly 200 of the glasses body; alternatively, the temple may be placed in the temple dwell assembly 300 first, and then the lens body dwell assembly 200 is connected to the temple dwell assembly 300, at which time the lens body can be more easily placed in the lens body dwell assembly 200 without interference from the temple dwell assembly 300.

In summary, just because mirror body pressurize subassembly 200 and mirror leg pressurize subassembly 300 are for dismantling the relation of connection, have avoided the two formula structures as an organic whole, consequently can place the mirror body and the mirror leg substep of intelligent glasses 100 in mirror body pressurize subassembly 200 and mirror leg pressurize subassembly 300, and then optimized the use convenience of the pressurize tool of this embodiment.

As can be seen from the above description, the pressure maintaining jig disclosed in the embodiment of the present invention includes a mirror body pressure maintaining assembly 200 and a temple pressure maintaining assembly 300, the mirror body pressure maintaining assembly 200 includes a first bearing seat 210 and a first pressing member 220, the first bearing seat 210 forms a first pressure maintaining cavity 211, the first pressing member 220 forms a second pressure maintaining cavity, and the first pressure maintaining cavity 211 and the second pressure maintaining cavity can be combined to form a mirror body pressure maintaining cavity when the first pressing member 220 is pressed on the first bearing seat 210; the temple pressure-maintaining assembly 300 includes a second bearing seat 310 and a second pressing member 320, the second bearing seat 310 is formed with a third pressure-maintaining cavity 311, the second pressing member 320 is formed with a fourth pressure-maintaining cavity, and the third pressure-maintaining cavity 311 and the fourth pressure-maintaining cavity can be combined to form a temple pressure-maintaining cavity when the second pressing member 320 is pressed on the second bearing seat 310. After the bonding, can place the mirror body in mirror body pressurize intracavity at augmented reality glasses process to connect mirror body pressurize subassembly 200 and mirror leg pressurize subassembly 300, place the mirror leg in mirror leg pressurize intracavity again, just so under the circumstances evenly carries out the pressurize to augmented reality glasses is whole simultaneously.

Compared with the prior art, the pressure maintaining jig disclosed by the embodiment of the invention is used for integrally coating the outside of the augmented reality glasses, so that the adhered parts can be uniformly pressed, and the local adhesion defect of the augmented reality glasses is further avoided; meanwhile, when in use, the augmented reality glasses can be pressurized only by pressing the first pressing member 220 on the first bearing seat 210 and pressing the second pressing member 320 on the second bearing seat 310, thereby simplifying the operation process of pressure maintaining.

In the pressurize operation in-process, can place the mirror body in mirror body pressurize intracavity to connect mirror body pressurize subassembly 200 and mirror leg pressurize subassembly 300 through the mode of magnetism, place the mirror leg in mirror leg pressurize intracavity again, just so can carry out the pressurize to augmented reality glasses is whole evenly simultaneously under the circumstances.

As shown in fig. 3 to 7:

in the present embodiment, specific numbers of the first fitting portion 230, the first connecting portion 350, and the second fitting portion 212 and the second connecting portion 221, which will be described later, are not limited as long as a reliable magnetic attraction effect between the respective components can be achieved. As shown in fig. 3 to 7, the number of the second fitting portions 212 and the second connection portions 221 may be three, and the number of the first fitting portions 230 and the first connection portions 350 may be four; in other embodiments, for example, the number of the second matching parts 212 and the second connecting parts 221 may be four, and the number of the first matching parts 230 and the first connecting parts 350 may be six.

The specific arrangement position of the first matching portion 230 on the mirror body pressure maintaining assembly 200 is not limited in this embodiment, alternatively, the first matching portion 230 of this embodiment is provided in a plurality and is disposed at the edge of the mirror body pressure maintaining assembly 200, so as to facilitate the structural layout of the first matching portion 230 on the mirror body pressure maintaining assembly 200, and of course, the first matching portion 230 may also be disposed in other regions of the mirror body pressure maintaining assembly 200, for example, the middle region of the mirror body pressure maintaining assembly 200. Meanwhile, the present embodiment does not limit the specific disposition position of the first connecting part 350 on the temple holding kit 300 as long as the first connecting part 350 is disposed corresponding to the first fitting part 230.

In this embodiment, the detachable connection relationship between the mirror body pressure maintaining assembly 200 and the temple pressure maintaining assembly 300 may be various, for example, by snapping, bonding, screwing, etc., but these assembly methods have a problem of tedious operation, and in order to improve the convenience of operation, the mirror body pressure maintaining assembly 200 and the temple pressure maintaining assembly 300 of this embodiment may be matched in a magnetic attraction manner. Specifically, the first mating portion 230 of the present embodiment can be magnetically connected with the first connecting portion 350.

It should be understood that, with this arrangement, the mirror body pressure holding member 200 serves as a mounting base for the first fitting portion 230, and the temple pressure holding member 300 serves as a mounting base for the first connecting portion 350; when the pressure maintaining assembly 200 of the glasses body and the pressure maintaining assembly 300 of the glasses legs are connected, the two assemblies are only required to be close to each other, and reliable assembly can be realized based on the magnetic attraction effect between the first matching part 230 and the first connecting part 350; when disassembling the pressure maintaining jig, the operator only needs to apply the separated force to the mirror leg pressure maintaining assembly 200 and the mirror leg pressure maintaining assembly 300, and the magnetic attraction action between the first matching portion 230 and the first connecting portion 350, which is greater than the force, can smoothly separate the mirror leg pressure maintaining assembly 300 and the mirror leg pressure maintaining assembly 200.

Generally, the first mating portion 230 of the present embodiment is a magnet disposed on the mirror body pressure maintaining assembly 200, the first connecting portion 350 is a magnet disposed on the temple pressure maintaining assembly 300, the opposite side of the first mating portion 230 and the first connecting portion 350 has different magnetic poles, that is, the first mating portion 230 faces one side of the first connecting portion 350, and the side of the first connecting portion 350 faces one side of the first mating portion 230 has different magnetic poles, so that the mirror body pressure maintaining assembly 200 can be connected to the temple pressure maintaining assembly 300 by the attraction of the first mating portion 230 and the first connecting portion 350 due to the attraction of the different magnetic poles.

As mentioned above, the specific position of the first matching portion 230 on the mirror body pressure maintaining assembly 200 is not limited in this embodiment, and alternatively, the first matching portion 230 may be disposed on the first carrying seat 210, and certainly can be disposed on the first pressing member 220. Generally, the first carrier 210 has a larger volume, i.e. a larger mounting area, so that the first matching portion 230 is more conveniently disposed.

In a specific embodiment, the edge of the first bearing seat 210 of the present embodiment is formed with a groove 214 for receiving and fixing the first matching portion 230. It should be understood that the groove 214 can provide a mounting space for the first matching part 230, the first matching part 230 as a magnet can be stably and reliably mounted in the groove 214, and the groove 214 covers a portion of the first matching part 230, thereby also protecting the first matching part 230.

Further, in order to optimize the structural layout so as to make the first matching portion 230 and the first connecting portion 350 opposite to each other to achieve magnetic attraction connection, a gap 223 may be formed in an area of the first pressing member 220 of the present embodiment corresponding to the first matching portion 230, and when the first pressing member 220 is connected with the first bearing seat 210, the first matching portion 230 is exposed through the gap 223; the second carrier 310 forms a cantilever 313, the cantilever 313 is fixed with a first connection portion 350, and when the temple pressure-maintaining assembly 300 is connected with the temple pressure-maintaining assembly 200, the cantilever 313 can extend into the notch 223, so that the first matching portion 230 is connected with the first connection portion 350.

Specifically, the cantilever 313 is formed on the temple pressure maintaining assembly 300, and may extend to a region opposite to the first matching part 230, and the cantilever 313 may be connected to the first carrier 210 by the magnetic attraction of the first connecting part 350 and the first matching part 230. Because the first pressing member 220 needs to be pressed on the first bearing seat 210 when in use, and at this time, the first pressing member 220 covers the first matching portion 230, the gap 223 is formed on the first pressing member 220 to avoid the first matching portion 230, so that the cantilever 313 can smoothly extend into the gap 223 to realize the magnetic connection between the first matching portion 230 and the first connecting portion 350.

At the same time, the notch 223 also serves as a positioning fool-proof, indicating that the temple force-maintaining assembly 300 is installed in place on the lens body force-maintaining assembly 200 when the cantilever 313 is positioned in the notch 223.

The specific configuration of the cantilever 313 is not limited in this embodiment, and it may be disposed at a predetermined angle with respect to the temple pressure maintaining assembly 300, and the predetermined angle may be 90 ° in general, but may be other angles, such as 60 °, 120 °, and the like.

The specific arrangement position of the first connecting portion 350 on the temple holding assembly 300 is not limited in this embodiment, alternatively, the first connecting portion 350 may be disposed on the second carrier seat 310, and certainly it may also be disposed on the second pressing member 320; generally, the second carrier 310 has a larger volume, i.e., a larger mounting area, so as to facilitate the arrangement of the first connection portion 350.

In the case that the first connecting portion 350 is disposed on the second carrier 310, the suspension 313 may be disposed on the second carrier 310. Generally, to optimize the utilization of the installation space on the second carrier 310 for the convenience of structural layout, the suspension 313 may be disposed at one end of the second carrier 310.

Further, the pressure maintaining jig of the present embodiment can be placed on the supporting surface in various ways when in use, for example, one side of the pressure maintaining jig close to the mirror body pressure maintaining assembly 200 is placed on the supporting surface. In another specific embodiment, the second bearing seat 310 of the present embodiment may be provided with a support 312, and the support 312 is located at the other end of the second bearing seat 310 away from the cantilever 313. Under such setting, the pressure maintaining jig can be stably placed on the supporting surface through the support 312 on the second bearing seat 310, and the mirror body pressure maintaining assembly 200 is connected with the temple pressure maintaining assembly 300 at the end departing from the support 312, which undoubtedly can provide a larger installation space for the mirror body pressure maintaining assembly 200.

The specific configuration of the second pressing member 320 is not limited in this embodiment, and in an alternative scheme, the second pressing member 320 of this embodiment may include a first pressing member and a second pressing member, the first pressing member is configured to hold pressure on a portion of the temple close to the side of the mirror body pressure holding assembly 200, and the second pressing member is configured to hold pressure on a portion of the temple far away from the side of the mirror body pressure holding assembly 200.

Specifically, with such an arrangement, the second pressing member 320 is of a split structure, the first pressing member is adapted to the shape of a part of the glasses leg close to one side of the glasses pressure maintaining assembly 200, and the second pressing member is adapted to the shape of a part of the glasses leg far from one side of the glasses pressure maintaining assembly 200, so that the first pressing member and the second pressing member can be respectively processed, and the processing difficulty can be further reduced; secondly, when the second pressing member 320 is pressed on the second bearing seat 330, the first pressing sub-member and the second pressing sub-member can be sequentially pressed on the second bearing seat 330, so that the operation difficulty is reduced, and the lens legs can be prevented from being damaged.

In this embodiment, the second pressing member 320 needs to be pressed on the second bearing seat 310 to enable the temple to be located in the temple pressure-maintaining cavity, and perform pressure-maintaining treatment on the temple; the embodiment does not limit the specific pressing and fixing relationship between the second pressing member 320 and the second bearing seat 310, and the connection relationship between the second pressing member 320 and the second bearing seat 310 may be various, for example, the second pressing member 320 may also be connected to the second bearing seat 310 by a magnetic attraction manner, and press the temple in the temple pressure maintaining cavity to achieve the pressure maintaining process.

In another specific embodiment, the second pressing member 320 of the present embodiment has a first connecting end and a second connecting end, which are away from each other, the second pressing member 320 is hinged to the second carrier seat 310 at the first connecting end, and is in threaded connection with the second carrier seat 310 at the second connecting end. Specifically, the second pressing member 320 can rotate at the first connection end relative to the second bearing seat 310, and when the second connection end rotates to be far away from the second bearing seat 310, the third pressure-maintaining cavity 311 on the second bearing seat 310 is exposed, and at this time, the temple can be smoothly placed in the third pressure-maintaining cavity 311; when the second connecting end rotates to abut against the second bearing seat 310, the second pressing piece 320 is completely pressed on the second bearing seat 310, and the glasses legs are located in the glasses leg pressure maintaining cavities formed by combining the third pressure maintaining cavity 311 and the fourth pressure maintaining cavity; then, the second connecting end is connected to the second bearing seat 310 by a threaded fastener (e.g., a bolt, a screw, etc.), and the press-fit fixing connection of the second press-fit member 320 on the second bearing seat 310 is completed.

After the pressure maintaining treatment of the glasses legs is completed, the threaded fasteners can be firstly detached, and then the second pressing piece 320 is rotated to enable the second connecting end to be far away from the second bearing seat 310, and the glasses legs can be smoothly taken out by exposing the glasses legs.

Further, in order to reduce the impact kinetic energy of the second pressing member 320 during rotation and prevent the second pressing member 320 and the second carrier seat 310 from being damaged due to collision, the second pressing member 320 of the present embodiment is hinged to the second carrier seat 310 at the first connection end through the damping hinge 330. It should be understood that the damping hinge 330 is a buffering hinge, and based on this, the second connecting end of the second pressing member 320 can be moved slowly when moving towards the second bearing seat 310, so as to reduce the impact force, and further avoid the second connecting end of the second pressing member 320 colliding with the second bearing seat 310.

In this embodiment, the first pressing member 220 needs to be pressed on the first bearing seat 210 to position the lens body in the lens body pressure maintaining cavity and perform pressure maintaining treatment on the lens body; the embodiment does not limit the specific pressing and fixing relationship between the first pressing member 220 and the first bearing seat 210, and the connection relationship between the first pressing member 220 and the first bearing seat 210 may be various, for example, the first pressing member 220 may be connected to the first bearing seat 210 by a threaded fastener (bolt, screw, etc.), and the first pressing member 220 may be pressed on the first bearing seat 210 by screwing the threaded fastener, and the mirror body is pressed in the mirror body pressure maintaining cavity to achieve the pressure maintaining process.

In order to improve the convenience of the operation, the first bearing seat 210 of the embodiment has a second matching portion 212, the first pressing member 220 has a second connecting portion 221, and the second matching portion 212 and the second connecting portion 221 are magnetically connected.

Specifically, with such a configuration, the first bearing seat 210 serves as a mounting base for the second matching portion 212, and the first pressing member 220 serves as a mounting base for the second connecting portion 221; when the first pressing member 220 is close to the first bearing seat 210, the magnetic attraction between the second matching portion 212 and the second connecting portion 221 can achieve reliable pressing; when the pressure maintaining jig is disassembled, an operator only needs to apply a separating acting force to the first pressing member 220 and the first bearing seat 210, and the acting force is greater than the magnetic attraction between the second matching portion 212 and the second connecting portion 221 so as to smoothly separate the first pressing member 220 and the first bearing seat 210.

The specific number and the specific arrangement position of the second matching portions 212 and the second connecting portions 221 are not limited in this embodiment, optionally, the number of the second matching portions 212 in this embodiment is multiple and is arranged at the edge of the first bearing seat 210, and the second connecting portions 221 are arranged at the edge of the first pressing member 220 and are arranged corresponding to the second matching portions 212. It should be understood that, by providing the second matching portions 212 and the second connecting portions 221 in this way, the structural layout of the second matching portions 212 on the first carrier 210 and the structural layout of the second connecting portions 221 on the first pressing member 220 can be optimized, and of course, the second matching portions 212 may also be disposed in other areas on the first carrier 210, such as the middle area of the first carrier 210, and the second connecting portions 221 may also be disposed in other areas on the first pressing member 220, such as the middle area of the first pressing member 220.

Meanwhile, the second connecting portion 221 and the second matching portion 212 are correspondingly disposed, so that the two portions can be reliably magnetically connected.

Generally, the second matching portion 212 of the present embodiment is a magnet disposed on the first carrier 210, the second connecting portion 221 is a magnet disposed on the first pressing member 220, the magnetic poles of the second matching portion 212 and the opposite side of the second connecting portion 221 are different, that is, the magnetic poles of the second matching portion 212 facing the second connecting portion 221 and the magnetic poles of the second connecting portion 221 facing the second matching portion 212 are different, so that the first pressing member 220 can be connected to the first carrier 210 by the attraction between the second matching portion 212 and the second connecting portion 221 due to the attraction between the different magnetic poles.

Of course, when disassembling the mirror body pressure maintaining assembly 200, the operator only needs to apply a separating force to the first pressing member 220 and the first bearing seat 210, and the force is greater than the suction force between the second matching portion 212 and the second connecting portion 221, so as to separate the first pressing member 220 from the first bearing seat 210 smoothly, and then the mirror body can be taken out smoothly.

In general, the first mating portion 230, the first connecting portion 350, the second mating portion 212 and the second connecting portion 221 of the present embodiment may be N35 ndfeb magnets, and since N35 ndfeb magnets have excellent magnetic properties, the connection relationship between the mirror body pressure maintaining assembly 200 and the temple pressure maintaining assembly 300, and between the first carrier 210 and the first press covering member 220 can be reliably achieved. Of course, the embodiment does not limit the specific types of the magnets used for the first matching portion 230, the first connecting portion 350, the second matching portion 212 and the second connecting portion 221, and they may also be samarium-cobalt magnets, alnico magnets, ferrite magnets, etc.

In order to improve the accuracy and convenience of the pressing of the first pressing member 220 on the first bearing seat 210, in this embodiment, one of the first bearing seat 210 and the first pressing member 220 may be provided with a positioning protrusion 213, and the other one of the first bearing seat 210 and the first pressing member 220 is provided with a limiting portion 222 engaged with the positioning protrusion 213, and at least a portion of the positioning protrusion 213 may be limited and fixed in the limiting portion 222.

Specifically, when the positioning protrusion 213 is fixed to the position-limiting portion 222 in a limited manner, the positioning protrusion 213 can be assembled to the position-limiting portion 222 only at a specific predetermined position, so that the positioning protrusion 213 can be prevented from being assembled to the position-limiting portion 222 at a dislocated position, that is, the fool-proofing function can be realized by the cooperation between the positioning protrusion 213 and the position-limiting portion 222; based on the above, when the positioning protrusion 213 is fixed to the limiting portion 222 in a limited manner at the predetermined position, the first pressing member 220 can be aligned and pressed with the first bearing seat 210, so that the first pressure-maintaining cavity 211 is aligned with the second pressure-maintaining cavity, and the first pressure-maintaining cavity and the second pressure-maintaining cavity are combined to form a lens pressure-maintaining cavity for accommodating the lens. Generally, when the positioning protrusion 213 is limited and fixed in the limiting portion 222, the positioning protrusion 213 is limited in the circumferential direction thereof, so as to achieve the aligned pressing of the first pressing member 220 and the first bearing seat 210.

Of course, the specific arrangement positions of the positioning protrusions 213 and the position-limiting portions 222 are not limited in this embodiment, as shown in fig. 3 and fig. 4, the positioning protrusions 213 may be disposed on the first bearing seat 210, and the position-limiting portions 222 are correspondingly disposed on the first pressing member 220, or the positioning protrusions 213 may be disposed on the first pressing member 220, and the position-limiting portions 222 are correspondingly disposed on the first bearing seat 210.

Generally, the positioning protrusion 213 may have a protrusion structure, which may also have a protrusion, and the like, and the limiting portion 222 may have a slot structure, which may also have a limiting groove, a limiting through hole, and the like.

In order to optimize the structural layout of the first carrier 210 and the first pressing member 220 and facilitate the arrangement of the positioning protrusion 213 and the position-limiting portion 222, the positioning protrusion 213 of the present embodiment can be disposed at the edge of the first carrier 210 or the first pressing member 220, and the position-limiting portion 222 is a slot structure disposed at the edge of the first pressing member 220 or the first carrier 210. With such a configuration, the positioning protrusions 213 and the position-limiting portions 222 may not occupy the areas of the first bearing seat 210 and the first pressing member 220 near the middle portion, so that the areas can be used for disposing the first pressure-maintaining cavity 211 and the second pressure-maintaining cavity.

Specifically, as shown in fig. 3 and fig. 4, the positioning protrusion 213 may be disposed at an edge of the first carrier 210, the limiting portion 222 is a slot structure disposed at an edge of the first pressing member 220, and the positioning protrusion 213 may be embedded in the slot structure at the edge of the first pressing member 220, so as to realize that the first pressing member 220 is accurately pressed on the first carrier 210. Of course, the positioning protrusion 213 can also be disposed on the edge of the first pressing member 220, and the limiting portion 222 is a slot structure disposed on the edge of the first carrying seat 210.

Further, the positioning protrusion 213 of the present embodiment is formed with a first arc surface 213a, and the limiting portion 222 is formed with a second arc surface 222a matched with the first arc surface 213 a. In order to ensure that the positioning protrusion 213 and the position-limiting portion 222 can be engaged with each other to achieve a better fool-proof effect, a gap between the positioning protrusion 213 and the position-limiting portion 222 is usually small, which may easily cause interference and jamming when the positioning protrusion 213 and the position-limiting portion 222 move relative to each other, especially the square positioning protrusion 213 is especially prone to such a problem. Under such a configuration, when the positioning protrusion 213 is embedded into the limiting portion 222 having a slot structure, since the first arc surface 213a and the second arc surface 222a have a larger attaching area, the positioning protrusion 213 can be embedded into the limiting portion 222 more easily, and can be prevented from being jammed.

The specific number of the positioning protrusions 213 and the position-limiting portions 222 is not limited in this embodiment, and generally, three positioning protrusions 213 and three position-limiting portions 222 may be provided, so that a better fool-proof effect and fitting stability can be obtained. Meanwhile, the first arc-shaped surface 213a is generally disposed on the peripheral side of the positioning protrusion 213, and the second arc-shaped surface 222a is generally disposed on the inner sidewall of the limiting portion 222. In order to improve the applicability of the pressure maintaining jig, the second pressure maintaining cavity of the embodiment may include a goggles pressure maintaining cavity, the goggles pressure maintaining cavity is a profiling cavity, and the inner wall of the goggles pressure maintaining cavity is a curved surface; the goggle pressure maintaining cavity is matched with the outline of the goggle of the augmented reality glasses. It should be understood that in the augmented reality glasses with higher protection, a goggle is usually included, and the goggle belongs to a part of the glasses body, and the goggle and the glasses body carry out pressure maintaining treatment in a pressure maintaining cavity of the glasses body. Because the goggles set up in the front of the mirror body usually, be fixed in on the picture frame, for the curved surface structure, in order to be corresponding with it, the pressurize tool of this embodiment is provided with the goggles and protects the pressure chamber in second pressurize intracavity, also the goggles and protect the pressure chamber and belong to a part in second pressurize chamber, because the goggles and protect the pressure chamber for profile modeling cavity and inner wall are the curved surface, the cooperation of the profile of the goggles of goggles and augmented reality glasses is protected in the goggles, when mirror body pressurize subassembly 200 carries out the pressurize to the mirror body of augmented reality glasses, the goggles can be located goggles and protect the pressure chamber and carry out the pressurize smoothly and handle. Generally, the curved surface of the goggles and the curved surface of the goggle frame are in smooth transition; the inner wall of the goggle pressure maintaining cavity can be matched with the goggle and the goggle frame at the same time to perform pressure maintaining treatment.

Referring to fig. 4 to 7 again, based on the pressure maintaining jig disclosed in the embodiment of the present invention, the embodiment of the present invention further discloses a pressure maintaining method applied to the pressure maintaining jig, and the disclosed pressure maintaining method may include:

and S100, preparing augmented reality glasses 100 to be subjected to pressure maintaining treatment.

Step S100 may correspond to the augmented reality glasses 100 that have been glued, or the augmented reality glasses 100 that need to be glued. The augmented reality glasses 100 that need to be glued can be glued specifically in the predetermined bonding area of the augmented reality glasses 100.

It should be understood that the preset adhesion region refers to a region where the opposite sides of the front and rear shells need to be adhered, for example, the front and rear shells of the temple, which are parts that need to be adhered by spot gluing in the production and assembly of the augmented reality glasses 100; and the area of the grooved wiring on the mirror body also needs key point glue adhesion. After the operator performs the dispensing and bonding of the components (the predetermined bonding regions) of the augmented reality glasses 100, the pressure maintaining process is performed to ensure the bonding stability.

S200, placing the mirror body of the augmented reality glasses 100 in the first pressure-maintaining cavity 211 of the first carrying seat 210, and pressing the first pressing member 220 on the first carrying seat 210, so that the mirror body maintains pressure in the first pressure-maintaining cavity and the second pressure-maintaining cavity.

An operator needs to separate the first pressing member 220 from the first bearing seat 210 to expose the first pressure-maintaining cavity 211, so that the endoscope body can be smoothly placed in the first pressure-maintaining cavity 211; then, the first pressing member 220 is pressed on the first bearing seat 210, and the first pressing member and the first bearing seat need to be aligned and pressed together, so that the first pressure maintaining cavity 211 and the second pressure maintaining cavity can form a lens body pressure maintaining cavity, and the lens body is pressed in the lens body pressure maintaining cavity to perform pressure maintaining treatment. The first pressing member 220 and the first bearing seat 210 can be pressed and fixed to each other by the magnetic attraction method in this embodiment.

S300, connecting the glasses body pressure maintaining assembly 200 and the temple pressure maintaining assembly 300, placing the temple of the augmented reality glasses 100 in the third pressure maintaining cavity 311 of the second bearing seat 310, and pressing the second pressing cover 320 on the second bearing seat 310, so that the temple performs pressure maintaining in the third pressure maintaining cavity and the fourth pressure maintaining cavity.

When placing the mirror body earlier, in order to avoid mirror leg and pressurize tool to produce the interference, consequently all dismantle the separation with mirror leg pressurize subassembly 300 and mirror body pressurize subassembly 200 usually, and then need assemble mirror leg pressurize subassembly 300 and mirror body pressurize subassembly 200 again after placing the mirror body in mirror body pressurize intracavity, the two accessible in this embodiment the aforesaid magnetism mode of inhaling realizes connecting.

In this embodiment, the operator can rotate the second pressing member 320 to expose the third pressure-maintaining cavity 311, so that the temple can be smoothly placed in the third pressure-maintaining cavity 311; and then, the second pressing piece 320 is rotated again to be pressed on the second bearing seat 310, and after the second pressing piece and the second bearing seat are aligned and pressed, the third pressure-maintaining cavity 311 and the fourth pressure-maintaining cavity form a temple pressure-maintaining cavity, and temples are pressed in the temple pressure-maintaining cavities for pressure-maintaining treatment. The second pressing member 320 can be connected to the second supporting base 310 by one end hinged to the second supporting base 310 and the other end screwed to the second supporting base 310.

S400, standing and maintaining the pressure for a preset time. In this embodiment, the specific value of the preset time is not limited, and the preset time may be selected to be 24h, and may be selected to be 16h, 20h, and the like according to the actual working condition.

And S500, taking out the augmented reality glasses 100 from the pressure maintaining jig. The pressure maintaining jig is smoothly disassembled in a manner opposite to the manner of placing the augmented reality glasses 100, so that the augmented reality glasses 100 can be smoothly taken out, and the pressure maintaining operation is completed.

In the above embodiments of the present invention, the difference between the embodiments is mainly described, and different optimization features between the embodiments can be combined to form a better embodiment as long as they are not contradictory, and further description is omitted here in view of brevity of the text.

The above description is only an example of the present invention, and is not intended to limit the present invention. Various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims

1. A pressure maintaining jig for augmented reality glasses comprises a glasses body pressure maintaining component (200) and a glasses leg pressure maintaining component (300), wherein the glasses body pressure maintaining component (200) is provided with a first matching part (230), the glasses leg pressure maintaining component (300) is provided with a first connecting part (350), and the first matching part (230) is detachably connected with the first connecting part (350);

the endoscope body pressure maintaining assembly (200) comprises a first bearing seat (210) and a first pressing piece (220), wherein the first bearing seat (210) is detachably connected with the first pressing piece (220), and the first pressing piece (220) can be pressed on the first bearing seat (210); the first bearing seat (210) is provided with a first pressure maintaining cavity (211), the first pressing member (220) is provided with a second pressure maintaining cavity, the first pressure maintaining cavity (211) and the second pressure maintaining cavity are respectively matched with the outline of the endoscope body, and the endoscope body pressure maintaining assembly (200) is used for carrying out pressure maintaining treatment on the endoscope body by completely accommodating the endoscope body;

the temple pressure maintaining assembly (300) comprises a second bearing seat (310) and a second pressing piece (320), wherein the second bearing seat (310) is detachably connected with the second pressing piece (320), and the second pressing piece (320) can be pressed on the second bearing seat (310); the second bears seat (310) and is formed with third pressurize chamber (311), second pressure cover (320) are formed with fourth pressurize chamber, third pressurize chamber (311) with fourth pressurize chamber respectively with the profile cooperation of mirror leg, be used for right the mirror leg carries out pressurize and handles.

2. The pressure maintaining jig as claimed in claim 1, wherein the first fitting portion (230) is plural in number and is disposed at an edge of the mirror body pressure maintaining assembly (200); the first connecting portion (350) is disposed corresponding to the first mating portion (230).

3. A pressure holding jig according to claim 2, characterized in that the first fitting portion (230) is a magnet provided on the mirror body pressure holding member (200), the first connecting portion (350) is a magnet provided on the temple pressure holding member (300), and the first fitting portion (230) is different in magnetic pole from the opposite side of the first connecting portion (350).

4. The pressure maintaining jig of claim 3, wherein the edge of the first bearing seat (210) is formed with a groove (214) for accommodating and fixing the first fitting part (230).

5. The pressure maintaining jig according to claim 4, characterized in that a region of the first press-covering member (220) corresponding to the first fitting portion (230) is formed with a notch (223); the first matching part (230) can be exposed through the notch (223); a cantilever (313) is formed on the second bearing seat (310), and the first connecting part (350) is fixed on the cantilever (313); the cantilever (313) can extend into the notch (223) to connect the first matching part (230) with the first connecting part (350).

6. The pressure maintaining jig of claim 5, wherein the first bearing seat (210) is provided with a second matching part (212), the first pressing member (220) is provided with a second connecting part (221), and the second matching part (212) is magnetically connected with the second connecting part (221).

7. The pressure maintaining jig of claim 6, wherein the second engaging portions (212) are plural in number and are disposed at the edge of the first carrying seat (210); the second connecting portion (221) is disposed at an edge of the first pressing member (220), and is disposed corresponding to the second fitting portion (212).

8. The pressure maintaining jig of claim 7, wherein the second fitting portion (212) is a magnet disposed on the first bearing seat (210), the second connecting portion (221) is a magnet disposed on the first press-covering member (220), and the second fitting portion (212) and the second connecting portion (221) have different magnetic poles on opposite sides.

9. A pressure maintaining jig according to claim 8, characterized in that one of the first carrying seat (210) and the first pressing member (220) is provided with a positioning protrusion (213), and the other one is provided with a limiting portion (222) matched with the positioning protrusion (213), and the positioning protrusion (213) can be at least partially limited and fixed in the limiting portion (222).

10. A pressure maintaining jig according to claim 9, characterized in that the positioning projection (213) is formed with a first arc-shaped surface (213a), and the stopper portion (222) is formed with a second arc-shaped surface (222a) that fits with the first arc-shaped surface (213 a).

11. The pressure maintaining jig of claim 10, wherein the cantilever (313) is disposed at one end of the second bearing seat (310).

12. The pressure maintaining jig of claim 11, wherein a support (312) is further arranged on the second bearing seat (310); the support (312) is located at the other end of the second bearing seat (310) facing away from the cantilever (313).

13. The pressure holding jig according to claim 12, characterized in that the second pressing member (320) includes a first pressing sub member for holding pressure to a portion of the temple close to a side of the mirror body pressure holding assembly (200) and a second pressing sub member for holding pressure to a portion of the temple away from the side of the mirror body pressure holding assembly (200).

14. The pressure maintaining jig of claim 13, wherein the second pressing member (320) has a first connecting end (321) and a second connecting end (322) which are away from each other, the second pressing member (320) is detachably hinged with the second bearing seat (310) at the first connecting end (321), and is in threaded connection with the second bearing seat (310) at the second connecting end (322).

15. The pressure holding jig of claim 14, wherein the second press-covering member (320) is hinged to the second carrying seat (310) at the first connecting end (321) by a damping hinge (330).

16. The pressure maintaining jig of claim 15, characterized in that the first matching portion (230), the first connecting portion (350), the second matching portion (212) and the second connecting portion (221) are all N35 NdFeB magnets.

17. The pressure maintaining jig of claim 1, wherein the second pressure maintaining cavity comprises a goggles pressure maintaining cavity, the goggles pressure maintaining cavity is a profiling cavity and the inner wall of the goggles pressure maintaining cavity is a curved surface; the goggle pressure maintaining cavity is matched with the outline of the goggle of the augmented reality glasses.

18. A pressure maintaining method for augmented reality glasses, applied to the pressure maintaining jig of any one of claims 1 to 17, the method comprising:

preparing augmented reality glasses (100) to be subjected to pressure maintaining treatment;

placing the body of the augmented reality glasses (100) in a first pressure-maintaining cavity (211) of a first carrying seat (210), and pressing a first pressing piece (220) on the first carrying seat (210) so that the body is subjected to pressure maintaining in the first pressure-maintaining cavity (211) and a second pressure-maintaining cavity;

connecting a glasses body pressure maintaining component (200) and a glasses leg pressure maintaining component (300), placing a glasses leg of the augmented reality glasses (100) in a third pressure maintaining cavity (311) of a second bearing seat (310), and pressing a second pressing piece (320) on the second bearing seat (310) so as to enable the glasses leg to perform pressure maintaining in the third pressure maintaining cavity and a fourth pressure maintaining cavity;

standing and maintaining the pressure for a preset time;

removing the augmented reality glasses (100) from the pressure-holding fixture.