CN110543024A - intelligent glasses - Google Patents
intelligent glasses Download PDFInfo
- Publication number
- CN110543024A CN110543024A CN201910939609.8A CN201910939609A CN110543024A CN 110543024 A CN110543024 A CN 110543024A CN 201910939609 A CN201910939609 A CN 201910939609A CN 110543024 A CN110543024 A CN 110543024A
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- Prior art keywords
- lens
- shell
- main
- front lens
- rear lens
- Prior art date
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- 239000011521 glass Substances 0.000 title claims abstract description 25
- 230000007246 mechanism Effects 0.000 claims abstract description 18
- 238000009434 installation Methods 0.000 claims description 55
- 210000000988 bone and bone Anatomy 0.000 claims description 32
- 239000013589 supplement Substances 0.000 claims description 27
- 230000001502 supplementing effect Effects 0.000 claims description 21
- 239000011324 bead Substances 0.000 claims description 13
- 239000004984 smart glass Substances 0.000 claims description 11
- 230000000712 assembly Effects 0.000 claims description 8
- 238000000429 assembly Methods 0.000 claims description 8
- 230000008878 coupling Effects 0.000 abstract 3
- 238000010168 coupling process Methods 0.000 abstract 3
- 238000005859 coupling reaction Methods 0.000 abstract 3
- 238000006073 displacement reaction Methods 0.000 abstract 1
- 210000001747 pupil Anatomy 0.000 description 7
- 210000003128 head Anatomy 0.000 description 5
- 241000463219 Epitheca Species 0.000 description 4
- 238000005286 illumination Methods 0.000 description 4
- VYPSYNLAJGMNEJ-UHFFFAOYSA-N Silicium dioxide Chemical compound O=[Si]=O VYPSYNLAJGMNEJ-UHFFFAOYSA-N 0.000 description 3
- 239000000741 silica gel Substances 0.000 description 3
- 229910002027 silica gel Inorganic materials 0.000 description 3
- 238000013016 damping Methods 0.000 description 2
- 238000005516 engineering process Methods 0.000 description 2
- 210000000887 face Anatomy 0.000 description 2
- 238000000034 method Methods 0.000 description 2
- 238000000465 moulding Methods 0.000 description 2
- 239000004033 plastic Substances 0.000 description 2
- 229920003023 plastic Polymers 0.000 description 2
- 230000008569 process Effects 0.000 description 2
- 230000006978 adaptation Effects 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000005540 biological transmission Effects 0.000 description 1
- 230000002950 deficient Effects 0.000 description 1
- 230000006872 improvement Effects 0.000 description 1
- 238000001746 injection moulding Methods 0.000 description 1
- 238000003698 laser cutting Methods 0.000 description 1
- 239000000463 material Substances 0.000 description 1
- 238000002844 melting Methods 0.000 description 1
- 230000008018 melting Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 230000000149 penetrating effect Effects 0.000 description 1
- 239000000243 solution Substances 0.000 description 1
- 230000004382 visual function Effects 0.000 description 1
- 238000003466 welding Methods 0.000 description 1
Classifications
-
- G—PHYSICS
- G02—OPTICS
- G02B—OPTICAL ELEMENTS, SYSTEMS OR APPARATUS
- G02B27/00—Optical systems or apparatus not provided for by any of the groups G02B1/00 - G02B26/00, G02B30/00
- G02B27/01—Head-up displays
- G02B27/017—Head mounted
- G02B27/0172—Head mounted characterised by optical features
-
- G—PHYSICS
- G02—OPTICS
- G02B—OPTICAL ELEMENTS, SYSTEMS OR APPARATUS
- G02B27/00—Optical systems or apparatus not provided for by any of the groups G02B1/00 - G02B26/00, G02B30/00
- G02B27/01—Head-up displays
- G02B27/017—Head mounted
- G02B27/0176—Head mounted characterised by mechanical features
-
- G—PHYSICS
- G02—OPTICS
- G02B—OPTICAL ELEMENTS, SYSTEMS OR APPARATUS
- G02B27/00—Optical systems or apparatus not provided for by any of the groups G02B1/00 - G02B26/00, G02B30/00
- G02B27/01—Head-up displays
- G02B27/017—Head mounted
- G02B2027/0178—Eyeglass type
Abstract
The invention discloses an intelligent glasses, comprising: the main casing body, main casing internally mounted has main control board and power supply, left side mirror leg and right mirror leg, the symmetry install in main casing body both ends, just left side mirror leg and right mirror leg respectively through a rotating assembly with main casing body coupling, left side front lens and right front lens, install in main casing body below is close to user's eyes one side, left side front lens and right front lens respectively through a preceding lens adjustment mechanism with main casing body coupling, left side rear lens and right rear lens install in main casing body below is kept away from user's eyes one side, left side rear lens and right rear lens respectively through a rear lens adjustment mechanism with main casing body coupling, two range finding subassemblies are used for measuring respectively the displacement of lens and right front lens before the left side, with main control board electric connection. The technical scheme of the invention improves the structure of the traditional intelligent glasses, provides multiple functions and meets the actual requirements of different users.
Description
Technical Field
The invention relates to the field of glasses, in particular to intelligent glasses.
Background
The smart glasses refer to wearable glasses equipment which has an independent operating system like a smart phone and can realize various functions through software installation. It has been proposed in recent years and is one of the best viewed wearable smart devices. The existing intelligent glasses have complex structure and single function, and can not meet the requirements of different users.
Accordingly, the prior art is deficient and needs improvement.
disclosure of Invention
The invention mainly aims to provide intelligent glasses, aiming at improving the structure of the traditional intelligent glasses, providing multiple functions and meeting the actual requirements of different users.
In order to achieve the above object, the present invention provides a pair of smart glasses, comprising:
A main shell, a main control board and a power supply are arranged in the main shell,
The left glasses leg and the right glasses leg are symmetrically arranged at two ends of the main shell, and are respectively connected with the main shell through a rotating component,
a left front lens and a right front lens which are arranged at one side of the lower part of the main shell close to the eyes of a user, the left front lens and the right front lens are respectively connected with the main shell through a front lens adjusting mechanism,
A left rear lens and a right rear lens which are arranged at one side of the lower part of the main shell far away from the eyes of a user, the left rear lens and the right rear lens are respectively connected with the main shell through a rear lens adjusting mechanism,
and the two distance measuring assemblies are respectively used for measuring the moving distances of the left front lens and the right front lens and are electrically connected with the main control board.
preferably, a lens frame is respectively installed on the outer sides of the left front lens and the right front lens, two fixing bosses are arranged on the lens frame, lens fixing seats are installed on the fixing bosses, through holes for the lens fixing seats to penetrate through are formed in the bottom of the main shell, positioning bosses abutted against one side face of each lens fixing seat are arranged in the main shell, positioning holes corresponding to the positioning bosses are further formed in the side face of the main shell, nuts are installed in the positioning holes, positioning screws penetrate through the nuts, and one end portions of the positioning screws penetrate through the nuts to be abutted against the other side face of each lens fixing seat; the main casing side still is equipped with two arrow point form bosss, be equipped with on the picture frame of left side front lens and right front lens with two the scale that arrow point form boss corresponds respectively.
Preferably, the two rear lens adjusting mechanisms are mounted in the main shell; any one of the rear lens adjusting mechanisms comprises a driving motor, the driving motor is electrically connected with a main control board in the main shell, a screw rod is coaxially arranged at the driving end of the driving motor, a driving block is movably arranged on the screw rod, a sliding block is connected below the driving block, and the sliding block is slidably arranged on a guide sliding rail; the left rear lens and the right rear lens respectively penetrate through the bottom of the main shell and are connected with the bottom of the sliding block, a first magnet is installed at the bottom of the sliding block, second magnets corresponding to the first magnets are installed on the left rear lens and the right rear lens respectively, and the polarities of the first magnets and the second magnets are opposite.
preferably, the range finding subassembly install respectively in back lens adjustment mechanism, the range finding subassembly including install in grating mount pad on the slider, install a grating board on the grating mount pad, grating board surface edge a plurality of grating holes are evenly seted up to driving motor's drive direction, main internal being equipped with the grating sensor that the grating hole corresponds, grating sensor with main control board electric connection.
Preferably, the left glasses leg and the right glasses leg respectively comprise an upper shell and a lower shell which are spliced with each other, the end parts of the upper shell and the lower shell form a clamping groove clamped with the end part of the main shell, and the clamping groove is hinged with the end part of the main shell through the rotating assembly; the rotating assembly comprises a rotating shaft, an upper rotating disc and a lower rotating disc, the upper rotating disc and the lower rotating disc are arranged at two ends of the rotating shaft, the upper rotating disc is fixedly connected with the rotating shaft, the end part of the main shell is in locking screw connection with the upper rotating disc, and the lower rotating disc is in locking screw connection with the lower shell of the glasses leg; the center of the lower rotary table is provided with a sleeve hinged with the end part of the rotating shaft, the end part of the rotating shaft penetrates through the sleeve, and a friction plate is additionally arranged between the rotating shaft and the sleeve.
Preferably, the left glasses leg and the right glasses leg are respectively provided with an installation groove for installing a bone conduction headset, and the bone conduction headset is hinged with the installation groove through an adjusting component; the adjusting component comprises a universal shaft and a universal ball which are connected with each other, an installation shell is arranged on the outer cover of the bone conduction earphone, a sound outlet hole corresponding to the sound outlet part of the bone conduction earphone is formed in the side face of the installation shell, the installation shell is connected with one end of the universal shaft, the other end of the universal shaft penetrates through the universal ball, an installation cover used for installing the universal ball is arranged in the installation groove, the installation cover comprises an upper installation cover arranged on the upper shell and a lower installation cover arranged on the lower shell, and the universal ball is tightly clamped between the upper installation cover and the lower installation cover.
Preferably, two light supplement assemblies for supplementing light to the left front lens and the right front lens respectively are arranged in the main shell, a light supplement hole corresponding to the light supplement assembly is formed in the side wall of the main shell, and the light supplement hole is formed between the left/right front lens and the eyes; any light supplementing assembly comprises a light supplementing FPC, the light supplementing FPC is electrically connected with the main control board, at least one LED lamp bead is electrically welded on the surface of the light supplementing FPC, a backlight board is further mounted on the surface of the light supplementing FPC, and the LED lamp beads are arranged on the side face of the backlight board; the light supplementing hole is covered with a lens, and the lens corresponds to the backlight plate.
compared with the prior art, the invention has the beneficial effects that:
1. the pupil distance of the front lens can be respectively adjusted, so that the front lens can adapt to various crowds, the visual function of people cannot be damaged, and meanwhile, the front lens adapts to crowds with asymmetric pupil distance of two eyes;
2. The precision of the moving step distance of the rear lens is improved by adopting the double stepping motors, and the rear lens is suitable for people with asymmetrical interpupillary distance between two eyes;
3. the grating distance measuring mechanism is adopted to further improve the moving step precision of the rear lens, the precision can reach 0.3mm, and the running reliability of the stepping motor is improved;
4. The glasses legs are connected with the subject and the object through the rotating assemblies, can stay at any position, and can be suitable for people with various types of faces;
5. the natural light supplementing device is adopted, so that the glasses are not hurt when being worn and are not easy to fatigue;
6. the bone conduction earphones are added, the universal joint devices are adopted for installation, and people with different faces can conveniently use the bone conduction earphones.
Drawings
in order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.
FIG. 1 is an exploded view of the overall structure of the smart eyewear of the present invention;
FIG. 2 is a schematic view of a front lens mounting structure of the smart glasses according to the present invention;
FIG. 3 is an exploded view of a front lens mounting structure of smart glasses in accordance with the present invention;
FIG. 4 is an exploded view of a rear lens mounting structure for an intelligent eyeglass in accordance with the present invention;
FIG. 5 is an exploded view of a smart eyewear ranging assembly mounting structure of the present invention;
FIG. 6 is an exploded view of the mounting structure between the temple pieces and the main housing of the smart eyewear of the present invention;
Fig. 7 is an exploded view of a bone conduction headset mounting structure of the present invention;
FIG. 8 is an exploded view of an installation structure of a light supplement assembly of the smart glasses according to the present invention;
the implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.
Detailed Description
The smart glasses provided by this embodiment, with reference to fig. 1, include:
a main casing 1, a main control board 11 and a power supply (not shown) are arranged in the main casing 1,
a left side 21 and a right side 22 symmetrically installed at two ends of the main casing 1, and the left side 21 and the right side 22 are respectively connected with the main casing 1 through a rotating component,
A left front lens 31 and a right front lens 32, which are installed below the main casing 1 near the eyes of the user, the left front lens 31 and the right front lens 32 are respectively connected with the main casing 1 through a front lens adjusting mechanism,
a left rear lens 41 and a right rear lens 42, which are installed below the main casing 1 and far away from the eyes of the user, the left rear lens 41 and the right rear lens 42 are respectively connected with the main casing 1 through a rear lens adjusting mechanism,
And the two distance measuring components are respectively used for measuring the moving distance of the left front lens 31 and the right front lens 32 and are electrically connected with the main control board 11.
further, referring to fig. 2 and 3, a lens frame 51 is respectively installed on the outer sides of the left front lens 31 and the right front lens 32, two fixing bosses 52 are arranged on the lens frame 51, lens fixing seats 53 are installed on the fixing bosses 52, a through hole for the lens fixing seats 53 to pass through is formed in the bottom of the main housing 1, a positioning boss 54 abutting against one side surface of the lens fixing seat 53 is arranged in the main housing 1, a positioning hole 55 corresponding to the positioning boss 54 is further formed in the side surface of the main housing 1, a nut 56 is installed in the positioning hole 55, a positioning screw 57 is inserted in the nut 56, and one end portion of the positioning screw 57 penetrates through the nut 56 and abuts against the other side surface of the lens fixing seat 53; the side of the main housing 1 is further provided with two arrow-shaped bosses 58, and the spectacle frame 51 of the left front lens 31 and the right front lens 32 is provided with graduated scales 59 corresponding to the two arrow-shaped bosses 58 respectively.
When the front lens is mounted, the lens fixing seat 53 passes through the through hole at the bottom of the main housing 1, at this time, the lens fixing seat 53 is located between the positioning boss 54 and the positioning hole 55, and then the positioning screw 57 passes through the nut 56 of the positioning hole 55, so that the lens fixing seat 53 is clamped between the positioning boss 54 and the positioning screw 57, thereby fixing the front lens on the main housing 1. When the interpupillary distance needs to be adjusted, the positioning screw 57 is rotated, the abutting of the positioning screw 57 to the lens fixing seat 53 is cancelled, and the lens fixing seat 53 can move along the through hole, so that the distance between the left front lens 31 and the right front lens 32 is changed, and the adjustment of the interpupillary distance is realized.
it should be noted that by adding the arrow-shaped boss 58 and the scale 59, the installation position and the position adjustment distance of the left front lens 31 and the right front lens 32 can be observed in real time, and the adjustment of the interpupillary distance is facilitated. Furthermore, the user can go to professional institutions to test the self interpupillary distance, and the left front lens 31 and the right front lens 32 are adjusted to the target position by combining the self interpupillary distance, and the corresponding scales are the scales suitable for the user. When the left front lens 31 or the right front lens 32 is inadvertently displaced, the pupil distance scale can be conveniently adjusted to the tested pupil distance scale position, and the pupil distance scale is more convenient to use.
further, location boss 54 side is equipped with first sawtooth structure, lens fixing base 53 side be equipped with the second sawtooth structure that first sawtooth structure corresponds, the tooth pitch of first sawtooth and second sawtooth all sets up to 0.5mm, can improve the precision that preceding lens was adjusted, swiftly adjusts accurately.
further, a rubber screw cover 510 is additionally arranged at the other end of the positioning screw 57, so that the end part of the positioning screw 57 is prevented from being protruded to scratch the eyes of a user.
Further, referring to fig. 4, two rear lens adjusting mechanisms are installed in the main housing 1; any one of the back lens adjusting mechanisms comprises a driving motor 61, the driving motor 61 is electrically connected with the main control board 11 in the main housing 1, a lead screw 62 is coaxially installed at the driving end of the driving motor 61, a driving block 63 is movably installed on the lead screw 62, a sliding block 64 is connected below the driving block 63, and the sliding block 64 is slidably installed on a guide sliding rail 65; the left rear lens 41 and the right rear lens 42 respectively penetrate through the bottom of the main housing 1 to be connected with the bottom of the sliding block 64, a first magnet 66 is installed at the bottom of the sliding block 64, second magnets 67 corresponding to the first magnets 66 are installed on the left rear lens 41 and the right rear lens 42 respectively, and the polarities of the first magnets 66 and the second magnets 67 are opposite.
it should be noted that, during the pupil distance adjustment, the main control board 11 of the main housing 1 sends a driving signal to the driving motor 61 (the driving signal is sent to one of the driving motors or to both driving motors at the same time according to actual requirements), the driving end of the driving motor 61 drives the screw rod 62 to rotate by forward rotation or reverse rotation, and the driving block 63 mounted on the screw rod 62 reciprocates along the length direction of the screw rod 62 (which is equivalent to a motor screw rod driving module commonly used in the prior art), so that the sliding block 64 and the left/right rear lens 42 sequentially connected to the driving block 63 reciprocate, thereby realizing the adjustment of the position of the left/right rear lens 42.
Further, the sliding block 64 is connected with the driving block 63 through a fixing pin 68, and fixing holes (not shown in the figure) for fixing the fixing pin 68 are formed in both the sliding block 64 and the driving block 63, so that the sliding block 64 can move together with the driving block 63; the left rear lens 41 and the right rear lens 42 are both attracted by the magnetic force between the first magnet 66 and the second magnet 67, so that the left rear lens 41 and the right rear lens 42 can be conveniently mounted on the slider 6434, respectively. Further, in the present invention,
Furthermore, two positioning columns 411 are respectively arranged on the left rear lens 41 and the right rear lens 42, positioning holes 55 (not shown in the figure) matched with the positioning columns 411 are formed in the bottom of the sliding block 64, and when the left/right rear lens 42 is installed, the positioning columns 411 and the positioning holes 55 can be used for positioning and installing, so that the installation stability of the left/right rear lens 42 can be improved, meanwhile, the alignment between the first magnet 66 and the second magnet 67 is facilitated, and the installation efficiency is high.
Further, referring to fig. 5, the distance measuring components are respectively installed on the rear lens adjusting mechanisms, the distance measuring components include grating installation seats 71 installed on the sliding blocks 64, grating plates 72 are installed on the grating installation seats 71, a plurality of grating holes 73 are uniformly formed in the surfaces of the grating plates 72 along the driving direction of the driving motor 61, grating sensors 74 corresponding to the grating holes 73 are arranged in the main casing 1, and the grating sensors 74 are electrically connected with the main control board 11. One end of the fixing pin 68 is connected with the driving block 63, and the other end of the fixing pin 68 sequentially penetrates through the grating mounting seat 71 and the sliding block 64, so that the mounting stability and the movement synchronism among the driving block 63, the grating mounting seat 71 and the sliding block 64 are ensured.
in the pupil distance adjusting process of the front lens, the grating plate 72 mounted on the grating mounting seat 71 moves synchronously with the slider 64, the grating sensor 74 detects the moving distance of the grating plate 72 (i.e. the moving distance of the lens), and feeds back information to the main control board 11, so that the lens can be accurately measured.
Specifically, the grating sensor 74 is disposed in a U shape, the grating plate 72 penetrates the grating sensor 74, and the grating sensor 74 includes a light source emitting end and a light source receiving end respectively disposed on the upper and lower sides of the grating plate 72. When the grating hole 73 on the grating plate 72 passes through the grating sensor 74, the light source emitting end above the grating hole 73 can irradiate the light source receiving end below the grating hole 73, the grating sensor 74 senses once and feeds back an electric wave to the main control plate 11, and when the non-grating hole position on the grating plate 72 passes through the grating sensor 74, the grating sensor 745 does not generate the electric wave. The main control board 11 converts the electric wave into a distance signal, thereby accurately measuring the movement of the lens. It should be noted that the aperture of the grating holes 73 is set to 0.3mm, and the distance between the grating holes 73 is set to 0.3 mm. Therefore, the distance that the mirror moves is about (N-1) × 0.3mm every time the grating sensor 74 transmits N radio waves. And the grating holes 73 on the grating plate 72 are processed by laser cutting, so that the precision of the grating plate is further improved.
Further, referring to fig. 6, each of the left side arm 21 and the right side arm 22 includes an upper shell 211 and a lower shell 212 which are spliced with each other, ends of the upper shell 211 and the lower shell 212 form a slot 213 which is clamped with an end of the main housing 1, and the slot 213 is hinged with the end of the main housing 1 through the rotating assembly; the rotating assembly comprises a rotating shaft 81, an upper rotating disc 82 and a lower rotating disc 83 which are arranged at two ends of the rotating shaft 81, the upper rotating disc 82 is fixedly connected with the rotating shaft 81, the upper rotating disc 82 is in locking screw connection with the end part of the main shell 1, and the lower rotating disc 83 is in locking screw connection with the lower temple shell 212; the center of the lower rotating disk 83 is provided with a sleeve 84 hinged with the end of the rotating shaft 81, the end of the rotating shaft 81 is arranged in the sleeve 84 in a penetrating way, and a friction plate 85 is additionally arranged between the rotating shaft 81 and the sleeve 84. The bottom of the clamping groove 213 is also provided with a connecting piece 86, and the connecting piece 86 is connected with the bottom of the lower rotating disc 83 through a locking screw.
It should be noted that when the glasses legs are installed, the rotating assemblies are first spliced, in this embodiment, the rotating shaft 81 and the upper rotating disc 82 are integrally arranged, so that the processing is convenient, and the structural stability of the rotating assemblies is ensured. The integrally arranged upper rotating disc 82 and the rotating shaft 81 are connected with the lower rotating disc 83, namely, the end part of the rotating shaft 81 is inserted into the sleeve 84 at the center of the lower rotating disc 83, and the friction plate 85 is arranged between the sleeve 84 and the rotating shaft 81, so that the damping is increased on the rotation between the rotating shaft 81 and the lower rotating disc 83, the connection stability between the rotating shaft 81 and the lower rotating disc 83 is improved, and meanwhile, the lower rotating disc 83 rotates and is fixed at any angle around the rotating shaft 81.
After the rotatable component concatenation is accomplished, with last carousel 82 through locking screw and main casing body 1 end connection, again with connection piece 86 and lower carousel 83 lock screw connection, later, will install the rotatable component and main casing body 1's connection piece 86 lock screw install at mirror leg inferior valve 212 (draw-in groove 213 bottom promptly), at last with mirror leg epitheca 211 with mirror leg inferior valve 212 concatenation makes main casing body 1 further joint in draw-in groove 213 that epitheca 211 and inferior valve 212 formed, accomplishes the installation of mirror leg.
it should be noted that if the connecting piece 86 is not provided, a screw through hole needs to be processed on the lower temple shell 212 to be connected with a locking screw at the bottom of the lower dial 83, which results in a complicated structure of the lower temple shell 212, inconvenient processing and influences on the structural rigidity of the lower temple shell 212. Therefore, in the embodiment, by adding the connecting piece 86, the rotating assembly can be quickly connected with the lower temple shell 212 only by fixing the bottom of the lower turntable 83 with the connecting piece 86 through the locking screw and then processing the screw hole corresponding to the connecting piece 86 on the surface of the lower temple shell 212, so that the rigidity of the end part of the lower temple shell 212 is ensured, the structure is simpler, the processing is convenient, and the cost is low.
Further, referring to fig. 7, the left and right temples 21 and 22 are respectively provided with an installation groove 214 for installing a bone conduction headset 91, and the bone conduction headset 91 is hinged with the installation groove 214 through an adjustment assembly; the adjusting assembly comprises a universal shaft 92 and a universal ball 93 which are connected with each other, an installation shell 94 is covered outside the bone conduction earphone 91, a sound outlet hole 95 corresponding to the sound outlet part of the bone conduction earphone 91 is formed in the side surface of the installation shell 94, the installation shell 94 is connected with one end of the universal shaft 92, the other end of the universal shaft 92 penetrates through the universal ball 93, an installation cover used for installing the universal ball 93 is arranged in the installation groove 214, the installation cover comprises an installation upper cover 96 installed on the upper shell 211 and an installation lower cover 97 installed on the lower shell 212, and the universal ball 93 is clamped between the installation upper cover 96 and the installation lower cover 97.
It should be noted that the universal shaft 92 and the mounting housing 94 are arranged in an injection molding integral structure, which is convenient for processing, and when the bone conduction earphone 91 is mounted, the bone conduction earphone 91 is firstly mounted in the mounting housing 94 provided with the universal shaft 92, and then the other end of the universal shaft 92 is inserted into the universal ball 93. In this embodiment, cardan shaft 92 one end is equipped with the external screw thread, cardan ball 93 seted up with the screw hole of external screw thread adaptation makes things convenient for the installation between cardan shaft 92 and the cardan ball 93, improves installation stability. Then, the gimbaled ball 93 with the bone conduction headset 91 is clamped in the mounting cover of the mounting groove 214, and the mounting between the bone conduction headset 91 and the temple can be completed. When adjusting the position of the bone conduction headset 91, the bone conduction headset 91 can be adjusted by rotating the bone conduction headset 91 with a hand, and rotating the universal ball 93 connected to the bone conduction headset 91 in the mounting cover.
Further, in the present embodiment, the upper mounting cover 96 and the lower mounting cover 97 are respectively provided with a fixing post 98, and the upper shell 211 and the lower shell 212 are respectively provided with a fixing hole (not shown) adapted to the fixing post 98. The installation upper cover 96 with the fixed column 98 sets up to silica gel integrative structure of moulding plastics, installation lower cover 97 with the fixed column 98 sets up to silica gel integrative structure of moulding plastics, earlier install upper cover 96 and installation lower cover 97 and fix in epitheca 211 and inferior valve 212 through fixed column 98 respectively, when bone conduction headset 91 is installed, will be equipped with bone conduction headset 91's universal ball 93 and arrange installation lower cover 97 in, again with the epitheca 211 and the inferior valve 212 concatenation of mirror leg fixed, at this moment, install upper cover 96 just with universal ball 93 butt to press from both sides universal ball 93 and press from both sides tightly between installation upper cover 96 and installation lower cover 97, accomplish bone conduction headset 91's installation, improve bone conduction headset 91's installation stability. Simultaneously, the installation upper shield 96 and the installation lower shield 97 all set up to the silica gel material, can improve its and universal ball 93 between the frictional force, when universal ball 93 rotated, provide certain damping, prevent to take place to become flexible between universal ball 93 and the installation cover to can realize bone conduction earphone 91's target angle modulation, improve its stability.
It should be noted that the universal shaft 92 is provided with a through hole along the length direction thereof, and a control line of the bone conduction headset 91 can pass through the through hole and extend into the temple shell to be connected with a control main board and a battery in the temple shell, so as to charge the bone conduction headset 91 and control the operations of opening and closing the bone conduction headset 91, and the function control of the bone conduction headset 91 does not belong to the technical point of the present invention, and is the prior art, and is not described herein again.
Further, referring to fig. 8, two light supplement assemblies for supplementing light to the left front lens 31 and the right front lens 32 are disposed in the main housing 1, a light supplement hole 101 corresponding to the light supplement assembly is disposed on a side wall of the main housing 1, and the light supplement hole 101 is disposed between the left/right front lens 32 and eyes; any light supplementing assembly comprises a light supplementing FPC102, the light supplementing FPC102 is electrically connected with the main control board 11, at least one LED lamp bead 103 is electrically welded on the surface of the light supplementing FPC102, a backlight board 104 is further mounted on the surface of the light supplementing FPC102, and the LED lamp beads 103 are arranged on the side face of the backlight board 104; a lens 105 is covered on the light compensating hole 101, and the lens 105 corresponds to the backlight plate 104.
It should be noted that a switch button (not shown in the figure) connected with the main control board 11 in a control mode can be arranged on the intelligent glasses, when light supplement is needed, a user presses the switch button, the main control board 11 receives a light supplement control signal sent by the control button and then sends the signal to a light supplement FPC102 connected with the main control board, an LED lamp bead 103 electrically connected with the light supplement FPC102 turns on illumination, light sent by the LED lamp bead 103 is emitted from the side face of a backlight board 104 and is emitted from the surface of the backlight board 104, and after being reflected by a lens 105, the light irradiates a dark area between front lenses and human eyes, so that the fatigue of the eyes of the user is relieved. It should be noted that in this embodiment, the number of the LED beads 103 on any one of the light supplement FPCs 102 is two, and the two LED beads 103 are symmetrically disposed on two sides of the backlight board 104. The light emitted by the LED lamp beads 103 is simultaneously emitted from the two sides of the backlight plate 104, so that the illumination brightness and uniformity of the backlight plate 104 are ensured, the illumination is softer, and eyes can adapt to the illumination more easily.
further, a connection male head 106 used for being connected with the main control board 11 is arranged at the end of the light supplement FPC102, and a connection female head 107 adapted to the connection male head 106 is arranged on the main control board 11. A plurality of positioning columns 411 for mounting the light supplement FPC10241 are arranged in the main housing 1, and positioning holes 55 respectively matched with the positioning columns 411 one by one are formed in the light supplement FPC 102. Firstly, the LED lamp beads 103 are electrically welded on the light supplement FPC102 through the existing FPC board welding technology, and then the backlight board 104 is installed on the surface of the light supplement FPC102, so that the LED lamp beads 103 are symmetrically arranged on two sides of the backlight board 104. After the light supplement assembly is assembled, the positioning hole 55 on the light supplement FPC102 is correspondingly inserted into the positioning column 411 in the main housing 1, and then the positioning hole 55 and the positioning column 411 are fixedly connected by a hot melting technology in the prior art. Finally, the male connection head 106 on the light supplement FPC102 is inserted into the female connection head 107 on the main control board 11, so that the electrical connection between the light supplement FPC102 and the main control board 11 is completed, and the light supplement FPC is convenient to install and high in efficiency, and finally, the lens 105 is installed in the corresponding light transmission hole and corresponds to the backlight plate 104.
The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.
Claims (7)
1. A smart eyewear, comprising:
A main shell, a main control board and a power supply are arranged in the main shell,
The left glasses leg and the right glasses leg are symmetrically arranged at two ends of the main shell, and are respectively connected with the main shell through a rotating component,
A left front lens and a right front lens which are arranged at one side of the lower part of the main shell close to the eyes of a user, the left front lens and the right front lens are respectively connected with the main shell through a front lens adjusting mechanism,
A left rear lens and a right rear lens which are arranged at one side of the lower part of the main shell far away from the eyes of a user, the left rear lens and the right rear lens are respectively connected with the main shell through a rear lens adjusting mechanism,
And the two distance measuring assemblies are respectively used for measuring the moving distances of the left front lens and the right front lens and are electrically connected with the main control board.
2. The pair of smart glasses according to claim 1, wherein a frame is mounted on the outer sides of the front left lens and the front right lens, the frame is provided with two fixing bosses, the fixing bosses are provided with lens holders, the bottom of the main housing is provided with through holes for the lens holders to pass through, the main housing is provided with positioning bosses abutting against one side of the lens holders, the side of the main housing is further provided with positioning holes corresponding to the positioning bosses, a nut is mounted in the positioning holes, a positioning screw passes through the nut, and one end of the positioning screw passes through the nut and abuts against the other side of the lens holders; the main casing side still is equipped with two arrow point form bosss, be equipped with on the picture frame of left side front lens and right front lens with two the scale that arrow point form boss corresponds respectively.
3. the smart eyewear of claim 1, wherein both of the rear lens adjustment mechanisms are mounted within the main housing; any one of the rear lens adjusting mechanisms comprises a driving motor, the driving motor is electrically connected with a main control board in the main shell, a screw rod is coaxially arranged at the driving end of the driving motor, a driving block is movably arranged on the screw rod, a sliding block is connected below the driving block, and the sliding block is slidably arranged on a guide sliding rail; the left rear lens and the right rear lens respectively penetrate through the bottom of the main shell and are connected with the bottom of the sliding block, a first magnet is installed at the bottom of the sliding block, second magnets corresponding to the first magnets are installed on the left rear lens and the right rear lens respectively, and the polarities of the first magnets and the second magnets are opposite.
4. The pair of smart glasses according to claim 3, wherein the distance measuring units are respectively mounted on the rear lens adjusting mechanisms, the distance measuring unit includes a grating mounting seat mounted on the slider, a grating plate is mounted on the grating mounting seat, a plurality of grating holes are uniformly formed in the surface of the grating plate along the driving direction of the driving motor, a grating sensor corresponding to the grating holes is disposed in the main housing, and the grating sensor is electrically connected to the main control plate.
5. The pair of smart glasses according to claim 1, wherein each of the left and right glasses legs comprises an upper shell and a lower shell which are spliced with each other, ends of the upper and lower shells form a clamping groove which is clamped with the end of the main housing, and the clamping groove is hinged with the end of the main housing through the rotating assembly; the rotating assembly comprises a rotating shaft, an upper rotating disc and a lower rotating disc, the upper rotating disc and the lower rotating disc are arranged at two ends of the rotating shaft, the upper rotating disc is fixedly connected with the rotating shaft, the end part of the main shell is in locking screw connection with the upper rotating disc, and the lower rotating disc is in locking screw connection with the lower shell of the glasses leg; the center of the lower rotary table is provided with a sleeve hinged with the end part of the rotating shaft, the end part of the rotating shaft penetrates through the sleeve, and a friction plate is additionally arranged between the rotating shaft and the sleeve.
6. The smart glasses according to claim 5, wherein the left and right temples are respectively provided with a mounting groove for mounting a bone conduction headset, and the bone conduction headset is hinged with the mounting groove through an adjusting component; the adjusting component comprises a universal shaft and a universal ball which are connected with each other, an installation shell is arranged on the outer cover of the bone conduction earphone, a sound outlet hole corresponding to the sound outlet part of the bone conduction earphone is formed in the side face of the installation shell, the installation shell is connected with one end of the universal shaft, the other end of the universal shaft penetrates through the universal ball, an installation cover used for installing the universal ball is arranged in the installation groove, the installation cover comprises an upper installation cover arranged on the upper shell and a lower installation cover arranged on the lower shell, and the universal ball is tightly clamped between the upper installation cover and the lower installation cover.
7. The pair of smart glasses according to claim 1, wherein two light supplement assemblies for supplementing light to the left front lens and the right front lens are disposed in the main housing, and a light supplement hole corresponding to the light supplement assembly is disposed on a side wall of the main housing and disposed between the left/right front lens and the eyes; any light supplementing assembly comprises a light supplementing FPC, the light supplementing FPC is electrically connected with the main control board, at least one LED lamp bead is electrically welded on the surface of the light supplementing FPC, a backlight board is further mounted on the surface of the light supplementing FPC, and the LED lamp beads are arranged on the side face of the backlight board; the light supplementing hole is covered with a lens, and the lens corresponds to the backlight plate.
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Effective date of registration: 20210122 Address after: 528400 card 2, block 2, No.12 Jinsha Road, Shalang Jinsha new town, West District, Zhongshan City, Guangdong Province Applicant after: Zhongshan Tianli Trading Co. Address before: NO.311, 3rd floor, building C, Huafeng International Robot Industrial Park, Hangcheng Avenue, Nanchang community, Xixiang street, Bao'an District, Shenzhen City, Guangdong Province Applicant before: Enoch (Shenzhen) High Tech Co.,Ltd. |