Disclosure of Invention
In order to solve the problem of unreasonable weight distribution of intelligent glasses, the invention provides intelligent glasses, which comprise:
a lens assembly;
one end of the adjusting component is detachably connected with one end of the lens component, and one end of the other adjusting component is detachably connected with the other end of the lens component;
The glasses leg assembly comprises a first glasses leg and a second glasses leg, wherein the first glasses leg comprises a first front leg unit and a first rear leg unit, the first front leg unit and the first rear leg unit are sequentially arranged along the extending direction of the first glasses leg, one end of the adjusting assembly, which is far away from the lens assembly, is detachably connected with one end of the first front leg unit, and the other end of the adjusting assembly, which is far away from the lens assembly, is detachably connected with one end of the second glasses leg;
The intelligent assembly comprises a control module, a sounding module, a battery module and an electric channel module, wherein the control module is arranged in a cavity of the first front leg unit, one end of the control module is detachably connected with the first front leg unit, the other end of the control module is detachably connected with the first rear leg unit, the sounding module is arranged in a region, close to the first front leg unit, of the cavity of the first rear leg unit, the battery module is arranged in a region, far away from the first front leg unit, of the cavity of the first rear leg unit, and the control module, the battery module and the sounding module are electrically communicated through the electric channel module.
In some embodiments, the first front leg unit comprises a first front leg body and a first front leg partition plate, wherein the first front leg body is arranged into a hollow structure, the first front leg partition plate is fixedly connected with the inner peripheral wall of the first front leg body and divides the first front leg body into a first front leg front accommodating section and a first front leg rear accommodating section, part of components of the adjusting assembly are accommodated in the first front leg front accommodating section, and the control module is accommodated in the first front leg rear accommodating section.
In some embodiments, the cross-sectional area of the first front leg body increases gradually from one end toward the other end proximate the adjustment assembly.
In some embodiments, the control module comprises a circuit board and a first holder, wherein the circuit board is detachably connected with the first holder, the circuit board is electrically communicated with the battery module through an electric path module, the circuit board is electrically communicated with the sounding module through the electric path module, one end of the first holder is detachably connected with the first front leg partition plate, and the other end of the first holder is detachably connected with one end of the first rear leg unit.
In some embodiments, the first rear leg unit comprises a first rear leg body and a first rear leg partition plate, the first rear leg body is arranged into a hollow structure, the first rear leg partition plate is fixedly connected with the inner peripheral wall of the first rear leg body to partition the first rear leg body into a first rear leg front accommodating section and a first rear leg rear accommodating section, the first rear leg front accommodating section and the first rear leg rear accommodating section are arranged at an included angle, one end of the first rear leg front accommodating section is detachably connected with one end of the first retainer, the sounding module is arranged in a hollow space of the first rear leg rear accommodating section close to the first rear leg front accommodating section, and the battery module is arranged in a hollow space of the first rear leg rear accommodating section far away from the first rear leg front accommodating section.
In some embodiments, the first rear leg body further comprises a first sound channel and a first sound outlet, the first sound channel penetrates through the first rear leg separation plate to communicate the hollow cavity of the first rear leg front accommodating section with the sound generating module, and the first sound outlet is arranged on one side, close to the extending end of the first rear leg rear accommodating section, of the first rear leg front accommodating section.
In some embodiments, a first mounting hole is formed in a side, close to the second glasses leg, of the first rear leg front accommodating section, the first rear leg unit further comprises a first rear leg side cover, and the first rear leg side cover is connected with the first mounting hole in a clamping mode.
In some embodiments, the electrical pathway module electrically connected to the control module passes through a side of the first rear leg forward receiving section interior cavity that is remote from the first sound outlet, and the electrical pathway module electrically connected to the sound emitting module passes through a side of the first rear leg forward receiving section interior cavity that is remote from the first sound outlet.
In some embodiments, the adjusting assembly comprises a connecting buckle and an adjusting unit, wherein the connecting buckle is hinged with the adjusting unit, the connecting buckle is detachably connected with one end of the lens assembly, and one end of the adjusting unit away from the connecting buckle is detachably connected with one end of the second glasses leg or one end of the first front leg unit.
In some embodiments, the intelligent glasses comprise two intelligent components, one intelligent component is arranged in the first glasses leg, the other intelligent component is arranged in the second glasses leg, the second glasses leg comprises a second front leg unit and a second rear leg unit, the second front leg unit and the second rear leg unit are sequentially arranged along the extending direction of the second glasses leg, one control module is arranged in a cavity of the second front leg unit and detachably connected with the second front leg unit, one sounding module is arranged in a region, close to the second front leg unit, in the cavity of the second rear leg unit, one battery module is arranged in a region, far away from the second front leg unit, of the second front leg unit, and the control module, the battery module and the sounding module which are arranged in the second glasses leg are electrically communicated through the circuit module.
In order to solve the problem of unreasonable weight distribution of the intelligent glasses, the invention has the following advantages:
One end of the first front leg unit is connected with the adjusting component, the adjusting component is connected with the lens component, and the other end of the first front leg unit is connected with the first rear leg unit. When the user wears the smart eye, the junction of the first front leg unit and the first rear leg unit may be in contact with the user's ear. The control module can be made into a fiber length shape and is arranged in the cavity of the first front leg unit, so that the cross section area of the first front leg unit can be reduced, and the weight and the volume are reduced. The sounding module and the battery module are arranged in the cavity of the thicker first rear leg unit. The sum of the weights of the lens assembly, the adjusting assembly, the first front leg unit and the control module is balanced with the sum of the weights of the first rear leg unit, the sounding module and the battery module as much as possible, so that the weights of the intelligent glasses in front of and behind ears of a user approach to be balanced, the comfort of the user wearing the intelligent glasses is improved, and the sliding probability of the user in the moving process of the intelligent glasses is reduced. One end that lens subassembly was kept away from to an adjustment subassembly can be dismantled with first preceding leg unit and be connected, and another adjustment subassembly is kept away from the one end of lens subassembly and can be dismantled with the second mirror leg and be connected, can fold up mirror leg subassembly when intelligent glasses need not use, portable and accomodate.
Detailed Description
The disclosure will now be discussed with reference to several exemplary embodiments. It should be understood that these embodiments are discussed only to enable those of ordinary skill in the art to better understand and thus practice the present disclosure, and are not meant to imply any limitation on the scope of the present disclosure.
As used herein, the term "comprising" and variants thereof are to be interpreted as meaning "including but not limited to" open-ended terms. The term "based on" is to be interpreted as "based at least in part on". The terms "one embodiment" and "an embodiment" are to be interpreted as "at least one embodiment. The term "another embodiment" is to be interpreted as "at least one other embodiment". The terms "upper", "lower", "left", "right", "front", "rear", "top", "bottom", "inner", "outer", "vertical", "horizontal", "transverse", "longitudinal", etc. refer to an orientation or positional relationship based on that shown in the drawings. These terms are only used to better describe the present application and its embodiments and are not intended to limit the scope of the indicated devices, elements or components to the particular orientations or to configure and operate in the particular orientations. Also, some of the terms described above may be used to indicate other meanings in addition to orientation or positional relationships, for example, the term "upper" may also be used to indicate some sort of attachment or connection in some cases. The specific meaning of these terms in the present application will be understood by those of ordinary skill in the art according to the specific circumstances. Furthermore, the terms "mounted," "configured," "provided," "connected," and "connected" are to be construed broadly. For example, they may be fixedly connected, detachably connected, or of unitary construction, they may be mechanically or electrically connected, they may be directly connected, or they may be indirectly connected through intermediaries, or they may be in internal communication between two devices, elements or components. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art according to the specific circumstances. Furthermore, the terms "first," "second," and the like, are used primarily to distinguish between different devices, elements, or components (the particular species and configurations may be the same or different), and are not used to indicate or imply the relative importance and number of devices, elements, or components indicated. Unless otherwise indicated, the meaning of "a plurality" is two or more.
The embodiment discloses an intelligent glasses, as shown in fig. 1, may include:
A lens assembly 10;
Two adjustment assemblies 20, one end of one adjustment assembly 20 is detachably connected with one end of the lens assembly 10, and one end of the other adjustment assembly 20 is detachably connected with the other end of the lens assembly 10;
The glasses leg assembly 30, the glasses leg assembly 30 comprises a first glasses leg 31 and a second glasses leg 32, the first glasses leg 31 comprises a first front leg unit 311 and a first rear leg unit 312, the first front leg unit 311 and the first rear leg unit 312 are sequentially arranged along the extending direction of the first glasses leg 31, one end of one adjusting assembly 20 far away from the lens assembly 10 is detachably connected with one end of the first front leg unit 311, and one end of the other adjusting assembly 20 far away from the lens assembly 10 is detachably connected with one end of the second glasses leg 32;
The intelligent assembly 40, the intelligent assembly 40 comprises a control module 41, a sounding module 43, a battery module 42 and an electric passage module 44, wherein the control module 41 is arranged in a cavity of the first front leg unit 311, one end of the control module 41 is detachably connected with the first front leg unit 311, the other end of the control module 41 is detachably connected with the first rear leg unit 312, the sounding module 43 is arranged in a region, close to the first front leg unit 311, in the cavity of the first rear leg unit 312, the battery module 42 is arranged in a region, far away from the first front leg unit 311, in the cavity of the first rear leg unit 312, and the control module 41, the battery module 42 and the sounding module 43 are electrically communicated through the electric passage module 44.
In this embodiment, the intelligent glasses are intelligent wearable devices, and can integrate functions of improving eyesight and playing audio wirelessly on one device, thereby providing convenience for life of people. The current intelligent glasses are high in weight and unreasonable in weight distribution, and users can feel uncomfortable after wearing the glasses for a long time, so that the intelligent glasses are provided. As shown in fig. 1, the smart glasses may include a lens assembly 10, two adjustment assemblies 20, a temple assembly 30, and a smart assembly 40. The lens assembly 10 may be used to improve a user's vision or to achieve a light protection effect. In other embodiments, the lens assembly 10 can include a frame unit 11, a first lens 12, and a second lens 13. The frame unit 11 may be used to mount a first lens 12, a second lens 13. The first lens 12 and the second lens 13 may be concave or convex lenses for improving the eyesight of the user, or may be colored lenses for reducing the light incoming amount, and the user can change the lenses according to the own needs.
The adjusting assembly 20 can be used for adjusting the included angle between the temple assembly 30 and the lens assembly 10, so that the smart glasses can be conveniently stored. One end of one adjustment assembly 20 is detachably connected to one end of the lens assembly 10, and one end of the other adjustment assembly 20 is detachably connected to the other end of the lens assembly 10. The removable connection may facilitate separation of the temple assembly 30 from the adjustment assembly 20 and maintenance or replacement of each, respectively. The detachable connection mode can comprise one of a buckle, a threaded connection and a bolt connection.
The temple assembly 30 may include a first temple 31, a second temple 32. When the user wears the intelligent glasses, the first glasses leg 31 and the second glasses leg 32 can be arranged on the ears of the user to provide support for the intelligent glasses. The first temple 31 may include a first front-leg unit 311, a first rear-leg unit 312, which are sequentially arranged in the extending direction of the first temple 31. Different components in the intelligent assembly 40 can be arranged in the first front leg unit 311 and the first rear leg unit 312, so that the weight distribution of the intelligent glasses is uniform, and the effect of improving the comfort of a user is achieved. An end of the adjustment assembly 20 remote from the lens assembly 10 is detachably connected to an end of the first front leg unit 311, so that the first temple 31 and the lens assembly 10 can rotate through the rotation center. The end of the other adjusting component 20 far away from the lens component 10 is detachably connected with the end of the second lens leg 32, so that the second lens leg 32 and the lens component 10 can rotate through the rotation center. The folding of intelligent glasses can be realized in this way, and the intelligent glasses are convenient to store.
The intelligent module 40 may include a control module 41, a sound emitting module 43, a battery module 42, and an electrical pathway module 44. The control module 41 may be provided in the cavity of the first front leg unit 311, and a user may perform a predetermined operation (may be adjusting volume, evoking a voice assistant, switching music, making a call) on the connected device through the control module 41. Because the space in the cavity of the first front leg unit 311 is small and the shape is long, the control module 41 can customize the shape according to the long first front leg unit 311, thereby reducing the cross-sectional area of the first front leg unit 311 and reducing the weight and volume of the first front leg unit 311. One end of the control module 41 is detachably connected with the first front leg unit 311, the other end of the control module 41 may be detachably connected with the first rear leg unit 312, and the first front leg unit 311 and the first rear leg unit 312 may be connected by the control module, so that the strength of the first temple 31 may be increased. The sounding module 43 can be arranged in the cavity of the first rear leg unit 312 in a region close to the first front leg unit 311, when a user wears the intelligent glasses, the first rear leg unit 312 is positioned behind the ears, the sounding module 43 can be arranged in the cavity of the first rear leg unit 312 in a region close to the first front leg unit 311, the weight of the front and rear ears can be balanced, and the comfort of the user is improved. The battery module 42 can be arranged in the cavity of the first rear leg unit 312, far away from the first front leg unit 311, so that the weight can be further balanced, and the sliding probability of the intelligent glasses in the moving process of the user can be reduced. The control module 41 and the battery module 42 may be in electrical communication via an electrical communication module 44, allowing the battery module 42 to power the control module 41. The sounding module 43 and the battery module 42 can be electrically connected through the electrical communication module 44, so that the battery module 42 supplies power to the sounding module 43. The control module 41 and the sounding module 43 can be electrically connected through the electrical communication module 44, so that the sounding module 43 can receive signals from the control module 41 and play audio according to user intention or a preset program.
In some embodiments, as shown in fig. 3, the first front leg unit 311 includes a first front leg body 3111, a first front leg partition plate 3112, the first front leg body 3111 is provided in a hollow structure, the first front leg partition plate 3112 is fixedly coupled to an inner peripheral wall of the first front leg body 3111 to partition the first front leg body 3111 into a first front leg front accommodating section 31111, a first front leg rear accommodating section 31112, part of components of the adjustment assembly 20 are accommodated within the first front leg front accommodating section 31111, and the control module 41 is accommodated within the first front leg rear accommodating section 31112.
In the present embodiment, as shown in fig. 3, the first front leg unit 311 may include a first front leg body 3111, a first front leg partition plate 3112. The first front leg body 3111 may be provided in a hollow structure, and may provide an installation space for the control module 41, allowing the smart glasses to be compact. The first front leg dividing plate 3112 may be fixedly coupled to an inner circumferential wall of the first front leg body 3111 to divide the first front leg body 3111 into a first front leg front accommodating section 31111 and a first front leg rear accommodating section 31112, so that adjacent members may be separated from each other to avoid collision, and the first front leg dividing plate 3112 may also enhance the strength of the first front leg body 3111 to enhance durability of the first front leg body 3111. In order to provide dust and water resistance to the adjustment assembly 20, some of the components of the adjustment assembly 20 may be housed within the first front leg front housing section 31111 adjacent the lens assembly 10, in this manner also reducing the volume of the adjustment assembly 20 when assembled with the first front leg body 3111. The control module 41 can be accommodated in the first front leg rear accommodating section 31112, and dustproof and waterproof of the control module 41 can be realized through the sealed first front leg rear accommodating section 31112, so that the service life of the intelligent glasses can be prolonged.
In some embodiments, as shown in fig. 3, the cross-sectional area of the first front leg 3111 increases gradually from one end toward the other end near the adjustment assembly 20.
In this embodiment, as shown in fig. 3, since the cross-sectional area of the adjustment assembly 20 is smaller, the cross-sectional area of the first front leg 3111 near the end of the adjustment assembly 20 may also be smaller, and shielding the user's view may be avoided. The cross-sectional area of the end of the first front leg 3111 far from the adjusting component 20 can be larger, so that enough space is available for accommodating the intelligent component 40, and the larger cross-sectional area can avoid the contact area between the first front leg 3111 and the face of the user from being too small, so that the pressure of the first front leg 3111 on the face of the user is reduced to a certain extent, and the comfort of the user is improved. The cross-sectional area of the first front leg 3111 may gradually increase from one end near the adjusting unit 20 toward the other end, and the gradually increasing manner may avoid stress concentration of the first front leg 3111 when being stressed, and may ensure the strength of the first front leg 3111. The wall thickness of the end of the first front leg body 3111 near the adjusting component 20 may be larger, the wall thickness of the end of the first front leg body 3111 far away from the adjusting component 20 may be smaller, the strength of the first front leg body 3111 may be further improved, and the effect of prolonging the service life of the first front leg body 3111 is achieved.
In some embodiments, as shown in fig. 5, the control module 41 includes a circuit board 411 and a first holder 412, the circuit board 411 is detachably connected to the first holder 412, the circuit board 411 is in electrical communication with the battery module 42 through the electrical path module 44, the circuit board 411 is in electrical communication with the sound emitting module 43 through the electrical path module 44, one end of the first holder 412 is detachably connected to the first front leg partition plate 3112, and the other end is detachably connected to one end of the first rear leg unit 312.
In the present embodiment, as shown in fig. 5, the control module 41 may include a circuit board 411, a first holder 412. One end of the first holder 412 may be detachably connected to the first front leg partition plate 3112, and the other end may be detachably connected to one end of the first rear leg unit 312 near the first front leg unit 311, so that the strength of the first temple 31 may be increased by connecting the first front leg unit 311 and the first rear leg unit 312 through the first holder 412, and the manner of the detachable connection may allow the first holder 412 to be easily installed. The first holder 412 can be abutted against the first front leg partition plate 3112 at the end near the first holder, and thus can achieve dustproof and waterproof effects. The circuit board 411 can be detachably connected with the first holding frame 412, and the first holding frame 412 can provide support for the circuit board 411 and fix the position of the circuit board 411, so that abnormal sound and damage caused by shaking of the circuit board 411 in the moving process of a user are prevented. The circuit board 411 and the battery module 42 can be in electrical communication through the electrical path module 44, so that the circuit board 411 can obtain power to start working. The circuit board 411 and the sounding module 43 can be electrically communicated through the electric path module 44, and the circuit board 411 can electrically transmit a signal to the sounding module 43 through the electric path module 44 by an instruction, so that the sounding module 43 plays audio according to user intention or a reservation program. In other embodiments, a sealant may be added at the contact point between the first holder 412 and the first front leg divider 3112, so as to further ensure the dustproof and waterproof effects.
In other embodiments, the first holder 412 may include a first holder body 4121, a first sealing portion 4122, and a second sealing portion 4123. One end of the first frame 4121 may be detachably connected to the first front leg divider plate 3112, and the other end may be detachably connected to one end of the first rear leg unit 312, so that the assembly of the first frame 4121 may be facilitated, and compared with the manner in which the first frame 4121 and the first front leg unit 311 are integrally formed, the manner in which the first frame 4121 and the first front leg unit 311 are detachably connected may effectively reduce costs. The first frame 4121 may provide support for the circuit board 411 and fix the position of the circuit board 411, preventing abnormal sound and damage caused by shaking of the circuit board 411 during the user's activity. The first sealing portion 4122 may be sleeved at one end of the first frame 4121 near the first back leg unit 312, and the outer circumferential surface of the first sealing portion 4122 may abut against the inner circumferential surface of the first back leg unit 312, so as to prevent dust or liquid from entering the inner cavity of the first back leg unit 312 from the abutting position of the first back leg unit 312 and the first frame 4121, so as to improve durability of the smart glasses, and may also provide a pre-tightening force when the first front leg unit 311 is connected with the first back leg unit 312, so as to improve assembly efficiency. The second sealing portion 4123 may be sleeved at one end of the first frame 4121 near the first rear leg unit 312 and disposed at a side of the first sealing portion 4122 near the first front leg partition plate 3112 at intervals, and an outer circumferential surface of the second sealing portion 4123 may abut against an inner circumferential surface of the first front leg rear accommodating section 31112, so as to prevent dust or liquid from entering an inner cavity of the first front leg rear accommodating section 31112 from an abutting position of the first front leg rear accommodating section 31112 and the first frame 4121, so as to prolong a service life of the smart glasses, and may also provide a pre-tightening force when the first frame 4121 is installed in the first front leg body 3111, so as to improve an assembly efficiency. The battery module 42 may include a battery cell 421, a second holder 422. The second holder 422 may be disposed in a region of the cavity of the first rear leg unit 312 remote from the first front leg unit 311 such that the outer circumferential wall of the second holder 422 is detachably coupled to the inner circumferential wall of the first rear leg unit 312, thereby facilitating the insertion of the second holder 422 into the small-space first rear leg unit 312 cavity. The outer circumferential wall of the battery cell 421 may be detachably connected with the second holder 422. In this way, the second retainer 422 can limit the position of the battery cell 421, so as to ensure that the battery cell 421 does not shake during the activity of a user, and noise can be avoided. The battery 421 and the control module 41 may be connected by the electrical path module 44, so that the battery 421 may supply power to the control module 41. The sounding module 43 and the electric core 421 can be electrically communicated through the electric path module 44, so that the electric core 421 supplies power to the sounding module 43. The second holder 422 may include a second holder body 4221, a third seal portion 4222, and a fourth seal portion 4223. The second frame 4221 may be detachably connected to an inner peripheral wall of the end of the first rear leg unit 312 away from the first front leg unit 311, and an outer peripheral wall of the battery cell 421 may be detachably connected to the second holder 422, so that the battery cell 421 may be prevented from being swayed to cause component damage and noise generation. The inner peripheral surface of the third sealing portion 4222 may be sleeved on the outer peripheral wall of the end, far away from the first front leg unit 311, of the second retainer 422, the outer peripheral surface of the third sealing portion 4222 may abut against the inner peripheral wall of the first rear leg unit 312, so that liquid or dust may be prevented from entering the inner cavity of the first rear leg unit 312 and causing negative effects on the battery cell 421, and the third sealing portion 4222 may also provide a pre-tightening force when the second frame 4221 is installed in the first rear leg unit 312, so as to achieve the purpose of improving assembly accuracy. Because the one end that the electric core 421 kept away from first front leg unit 311 is equipped with the contact that charges, supply intelligent glasses to mend the electricity and use, consequently can set up fourth sealing portion 4223 around charging the contact, can further prevent liquid or dust entering the inside cavity of first back leg unit 312 to the life of extension intelligent glasses. The sound emitting module 43 may include a sound emitter 431 and a third holder 432. The third holder 432 may be provided in a region near the first front leg unit 311 within the cavity of the first rear leg unit 312 such that the outer circumferential wall of the third holder 432 is detachably connected with the inner circumferential wall of the first rear leg unit 312. The detachable connection may facilitate assembly due to the small internal cavity space of the first rear leg unit 312. The outer circumferential wall of the sounder 431 may be detachably connected to the third holder 432. Since the sounder 431 vibrates when playing audio, the third holder 432 can limit the resonance with adjacent components to generate noise in this way, thereby ensuring good audio playing effect. The sounder 431 and the battery core 421 can be electrically communicated through the electric path module 44, so that the battery core 421 can supply power to the sounder 431, and the sounder 431 can normally play audio. The sounder 431 may be in electrical communication with the control module 41 via the electrical pathway module 44, and a user may operate the control module 41 to allow the sounder 431 to play audio according to the user's intent or a predetermined program. The third holder 432 may include a third holder body 4321, a fifth sealing portion 4322, and a sixth sealing portion 4323. The third frame 4321 may be detachably connected to the inner peripheral wall of the first rear leg unit 312 near one end of the first front leg unit 311, and the detachable connection may be convenient for assembly due to the small space of the inner cavity of the first rear leg unit 312. The outer circumferential wall of the sounder 431 may be detachably connected to the third frame 4321, so that the sounder 431 may be prevented from resonating with adjacent components to generate noise when playing audio, thereby preventing the audio quality from being impaired. The inner peripheral wall of the fifth sealing portion 4322 may be sleeved on the outer peripheral wall of the third frame 4321, which is close to the first front leg unit 311, and the outer peripheral wall of the fifth sealing portion 4322 may be abutted against the inner peripheral wall of the first rear leg unit 312, so as to avoid liquid or dust entering the inner cavity of the first rear leg unit 312 and negatively affecting the service life of the sounder 431. The outer peripheral wall of the third frame 4321 may be provided with a through hole penetrating toward the inner peripheral wall of the third frame 4321, so as to avoid the audio played by the sounder 431 from being blocked. In order to prevent the malfunction of the acoustic generator 431 caused by the entry of liquid or dust into the inside of the acoustic generator 431, the through hole edge of the third frame 4321 may be provided with a sixth sealing part 4323. The fifth sealing part 4322 and the sixth sealing part 4323 can also provide a pretightening force when the third frame body 4321 is installed in the first rear leg unit 312, so as to achieve the purpose of improving the assembly accuracy.
In some embodiments, as shown in fig. 4, the first rear leg unit 312 includes a first rear leg body 3121 and a first rear leg partition plate 3124, the first rear leg body 3121 is provided in a hollow structure, the first rear leg partition plate 3124 is fixedly connected with an inner peripheral wall of the first rear leg body 3121 to partition the first rear leg body 3121 into a first rear leg front accommodating section 31211 and a first rear leg rear accommodating section 31215, the first rear leg front accommodating section 31211 is disposed at an angle with the first rear leg rear accommodating section 31215, one end of the first rear leg front accommodating section 31211 is detachably connected with one end of the first holding frame 412, the sounding module 43 is disposed in a hollow space of the first rear leg rear accommodating section 31215 adjacent to the first rear leg front accommodating section 31211, and the battery module 42 is disposed in a hollow space of the first rear leg rear accommodating section 31215 remote from the first rear leg front accommodating section 31211.
In the present embodiment, as shown in fig. 4, the first back leg unit 312 may include a first back leg body 3121, a first back leg partition plate 3124. The first rear leg 3121 is configured as a hollow structure, so that an installation space can be reserved for the sound generating module 43 and the battery module 42, and the smart glasses can be made compact. The first rear leg partition plate 3124 may be fixedly connected to the inner peripheral wall of the first rear leg body 3121, may partition the first rear leg body 3121 into the first rear leg front accommodating section 31211 and the first rear leg rear accommodating section 31215, and may improve the strength of the first rear leg body 3121, thereby prolonging the service life of the smart glasses. In order to prevent the smart glasses from sliding off, the first rear leg front accommodating section 31211 may be disposed at an included angle with the first rear leg rear accommodating section 31215, so that the first rear leg rear accommodating section 31215 may hook the ear of the user, thereby reducing the sliding-off probability of the smart glasses. The angled portion of the first rear leg body 3121 may be closer to the first rear leg forward receiving section 31211 leaving the first rear leg rearward receiving section 31215 substantially unbent, thereby facilitating installation of the sound emitting module 43, the battery module 42 within the interior cavity of the first rear leg rearward receiving section 31215. One end of the first rear leg front accommodating section 31211 may be detachably connected with one end of the first holding frame 412, so that the first rear leg front accommodating section 31211 and the first holding frame 412 may be conveniently installed, and modular assembly of the smart glasses may be facilitated, so as to reduce production cost. After the user wears the smart glasses, the distance between the user's ear and the position of the first rear leg rear accommodating section 31215 near the first rear leg front accommodating section 31211 is relatively short, so that the user can clearly hear the audio played by the smart glasses and balance the weight of the smart glasses, and the sounding module 43 can be disposed in the hollow space of the first rear leg rear accommodating section 31215 near the first rear leg front accommodating section 31211. The battery module 42 may be disposed in the hollow space of the first rear leg rear receiving portion 31215 away from the first rear leg front receiving portion 31211, which may facilitate the recharging or replacement of the battery module 42 and may also facilitate the balancing of the weight of the smart glasses.
In other embodiments, the first rear leg unit 312 may include a first rear leg rear cover 3122. The first rear leg rear cover 3122 may be detachably connected to an end of the first rear leg body 3121 remote from the first front leg body 3111. Since the first rear leg body 3121 has a compact inner space, the battery module 42, the sounding module 43, and the electric communication module 44 can be installed in the first rear leg body 3121, and the first rear leg rear cover 3122 can be connected to the first rear leg body 3121, thereby facilitating installation and reducing production costs.
In some embodiments, as shown in fig. 4, the first rear leg body 3121 further includes a first sound channel 31212 and a first sound outlet 31213, the first sound channel 31212 passes through the first rear leg partition plate 3124 to communicate the hollow cavity of the first rear leg front receiving section 31211 with the sound emitting module 43, and the first sound outlet 31213 is disposed on a side of the first rear leg front receiving section 31211 adjacent to an extended end of the first rear leg rear receiving section 31215.
In this embodiment, as shown in fig. 4, the first rear leg body 3121 may further include a first channel 31212, a first sound outlet 31213. The first channel 31212 may pass through the first rear leg divider panel 3124, communicating the hollow cavity of the first rear leg forward receiving section 31211 with the sound emitting module 43. When the user wears the smart glasses, the first rear-leg front receiving section 31211 is closest to the user's ear, and the first rear-leg unit 312 is installed above the user's ear, so that the first sound outlet 31213 may be disposed on a side of the first rear-leg front receiving section 31211 near the extended end of the first rear-leg rear receiving section 31215, so that the distance between the first sound outlet 31213 and the user's ear is shortened. When the sounding module 43 plays audio according to the signal transmitted by the circuit board 411, the audio can move toward the sound outlet through the first sound channel 31212 and then be transmitted to the ear of the user through the sound outlet, so that the user can clearly hear the audio.
In some embodiments, as shown in fig. 2, a first mounting hole 31214 is provided on a side of the first rear leg front accommodating section 31211 near the second temple 32, the first rear leg unit 312 further includes a first rear leg side cover 3123, and the first rear leg side cover 3123 is engaged with the first mounting hole 31214.
In this embodiment, as shown in fig. 2, since the first holder 412 and the first rear leg front accommodating section 31211 are independent of each other, in order to make the appearance of the first holder 412 assembled with the first rear leg front accommodating section 31211 smooth, there is no redundant recess and protrusion, and it is necessary to connect the abutting end surfaces of the first holder 412 and the first rear leg front accommodating section 31211 by screws. It is thus possible to provide an operation space for the locking screw at the outer peripheral wall of the first rear leg front accommodating section 31211 toward the mounting hole provided with one first rear leg front accommodating section 31211 and the external space. The first rear leg unit 312 may further include a first rear leg side cover 3123, and after the connection of the first front leg unit 311 and the first rear leg unit 312 is completed, the first rear leg side cover 3123 may be connected to the first mounting hole 31214 in a snap-fit manner, so as to achieve a dustproof and waterproof effect.
In some embodiments, as shown in fig. 5, the electrical pathway module 44 electrically connecting the control module 41 with the battery module 42 passes through a side of the interior cavity of the first rear leg forward receiving section 31211 that is remote from the first sound outlet 31213, and the electrical pathway module 44 electrically connecting the control module 41 with the sound emitting module 43 passes through a side of the interior cavity of the first rear leg forward receiving section 31211 that is remote from the first sound outlet 31213.
In this embodiment, as shown in fig. 5, in order to avoid the electric path module 44 from being exposed to the external space of the first rear leg unit 312, the electric path module 44 electrically connected to the control module 41 and the battery module 42 may pass through the side, far away from the first sound outlet 31213, of the internal cavity of the first rear leg front accommodating section 31211, and the electric path module 44 electrically connected to the sound producing module 43 may pass through the side, far away from the first sound outlet 31213, of the internal cavity of the first rear leg front accommodating section 31211, so as to realize waterproof and dustproof properties of the electric path module 44, so as to prolong the service life of the smart glasses.
In some embodiments, as shown in fig. 6 and 7, the adjusting assembly 20 includes a connector 21 and an adjusting unit 22, wherein the connector 21 is hinged to the adjusting unit 22, the connector 21 is detachably connected to one end of the lens assembly 10, and one end of the adjusting unit 22 away from the connector 21 is detachably connected to one end of the second temple 32 or one end of the first front leg unit 311.
In this embodiment, as shown in fig. 6 and 7, the adjusting assembly 20 may include a connector 21 and an adjusting unit 22. The connecting buckle 21 can be hinged with the adjusting unit 22, so that the connecting buckle 21 or the adjusting unit 22 can rotate by taking the connecting part of the connecting buckle 21 and the adjusting unit 22 as the center of a circle, and the folding of the intelligent glasses is realized, thereby improving portability. Since the connecting buckle 21 and the adjusting unit 22 need to rotate frequently in daily use, the wear is large, and one end of the connecting buckle 21 close to the lens assembly 10 can be detachably connected with one end of the lens assembly 10, so that maintenance of the connecting buckle 21 and the adjusting unit 22 can be facilitated. The end of the adjusting unit 22 far away from the connecting buckle 21 can be detachably connected with one end of the second glasses leg 32 close to the lens assembly 10 or one end of the first front leg unit 311 close to the lens assembly 10, so that a user can rotate the first glasses leg 31 and the second glasses leg 32 according to requirements, and the folding of the intelligent glasses is completed, and the portable glasses are convenient to carry.
In other embodiments, as shown in fig. 5 and 9, the connecting buckle 21 may include a buckle body 211 and a first elastic protrusion 212. The buckle body 211 can be hinged with the adjusting unit 22, so that the buckle body 211 or the adjusting unit 22 can rotate by taking the joint of the buckle body 211 and the adjusting unit 22 as the center of a circle, the folding of the intelligent glasses is realized, and the intelligent glasses can be conveniently carried by users. Because the wear of the buckle 211 and the adjusting unit 22 is larger than that of other components in daily use, the end of the buckle 211 near the lens assembly 10 can be detachably connected with the end of the lens assembly 10, thereby facilitating maintenance of the buckle 211 and the adjusting unit 22. The outer peripheral wall of the buckle body 211 may be provided with a first elastic protrusion 212, and a portion of the lens assembly 10 where the buckle body 211 is mounted is provided with a groove corresponding to the first elastic protrusion 212. When the first and second glasses legs 31 and 32 provided with the connecting buckles 21 are assembled and disassembled with the lens assembly 10, the connecting buckles can be directly pulled out or inserted into the lens assembly 10 to achieve the effect of improving convenience, and users can customize the lens assemblies 10, the first and second glasses legs 31 and 32 with different models according to the needs of the users, so that the users can be attracted to purchase the lens assemblies to a certain extent. As shown in fig. 7, 8 and 9, the adjusting unit 22 may include a rotating rod 221, a positioning ring 222, a spring 223, a limit clamp spring 224, a sliding sleeve 225 and a second elastic protrusion 226. The lever seat 2211 of the rotary lever 221 may be hinged to an end of the clasp 211 remote from the lens assembly 10. One end of the rod body 2212 of the rotating rod 221 may be fixedly connected to one end of the rod seat 2211 away from the lens assembly 10, and the other end of the rod body 2212 may extend toward a direction away from the lens assembly 10. The positioning ring 222 may be sleeved on the outer circumferential side of the rod body 2212, and one end of the positioning ring 222 may be abutted with the rod seat 2211. The cross-sectional area of the spring 223 may be smaller than the cross-sectional area of the retaining ring 222, allowing the retaining ring 222 to limit the position of the spring 223. The spring 223 may be sleeved on the outer circumference side of the rod body 2212 and abuts against the other end of the positioning ring 222. The limit clamp spring 224 can be an annular shape with a cross section area larger than that of the spring 223, and the limit clamp spring 224 can be connected to one end of the rod body 2212 far away from the rod seat 2211 in a clamping manner, so that the spring 223 can be compressed. The sliding sleeve 225 may be a cylindrical body with one end closed, and may be sleeved on the outer circumference of the rotating rod 221, the positioning ring 222, the spring 223, and the limit clamp spring 224. The open end of the sliding sleeve 225 may abut the button body 211. The sliding sleeve 225 can be provided in such a way as to prevent dust and water for the rotating rod 221, the positioning ring 222, the spring 223 and the limit clamp spring 224, thereby prolonging the service life of the rotating rod 221, the positioning ring 222, the spring 223 and the limit clamp spring 224. The outer peripheral wall of the sliding sleeve 225 may be provided with a second elastic protrusion 226. The inner peripheral wall of the sliding sleeve 225 may be snap-fit with the retaining ring 222. In order to avoid jamming with the rod 2212 when the sliding sleeve 225 swings, one end of the rod 2212 away from the rod seat 2211 may be spaced from the inner wall of the sliding sleeve 225. When the distance between the first rear leg unit 312 and the second rear leg unit 322 is enlarged to the extent that the sliding sleeve 225 deflects and moves along the axis of the rod body 2212 in a direction away from the connecting buckle 21, the positioning ring 222 is driven to move along the axial direction of the rod body 2212 by the connection between the sliding sleeve 225 and the positioning ring 222, so that the positioning ring 222 presses the spring 223 towards the limit clamp spring 224, and the spring 223 is compressed. In order to avoid jamming with the rod 2212 when the sliding sleeve 225 swings, one end of the rod 2212 away from the rod seat 2211 may be spaced from the inner wall of the sliding sleeve 225. At least a portion of the rod seat 2211 can be disposed in the hollow cavity of the sliding sleeve 225, so that the probability of direct contact between the rod seat 2211 and foreign matter can be reduced, and abnormal abrasion of the rod seat 2211 during use can be avoided. During the rotation of the rotating rod 221 relative to the connecting buckle 21, when the first rear leg unit 312 and the second rear leg unit 322 rotate to the maximum distance, the distance between the first rear leg unit 312 and the second rear leg unit 322, which is continuously operated by the user, is further enlarged, and when the distance is enlarged to a certain distance, the end face of the opening end of the sliding sleeve 225 can be abutted against the peripheral wall of the connecting buckle 21. At this time, the distance between the two rear leg units is further enlarged, the sliding sleeve 225 can deflect and move along the axis of the rod body 2212 in the direction away from the connecting buckle 21, so that the positioning ring 222 presses the spring 223 to the limit clamp spring 224, and the spring 223 is compressed. In this way, the first glasses leg 31 and the second glasses leg 32 can be prevented from being broken, the elastic force of the compressed springs 223 can also enable the first glasses leg 31 and the second glasses leg 32 to keep clamping force on the face of the user, and the probability of sliding down the intelligent glasses can be reduced. As shown in fig. 7 and 8, the adjustment assembly 20 may also include a loop slide bar 23. The ring slide bar 23 may include a collar portion 231, a slide plate 232, a positioning groove 233, and a connecting post 234. The collar portion 231, the sliding plate 232, and the connection post 234 may be sequentially fixedly connected as one body to improve strength. The collar portion 231 may be formed in a ring shape and sleeved on the outer circumferential side of the adjusting unit 22, and slidably connected with the adjusting unit 22, so that the distance between the first temple 31 and the connecting buckle 21 and the distance between the second temple 32 and the connecting buckle 21 can be adjusted, thereby adapting to the facial structure of more users. To achieve a compact adjustment assembly 20, the sled 232 may be spaced apart parallel to the adjustment unit 22. The positioning groove 233 may be provided at a side of the sliding plate 232 close to the adjustment unit 22, concavely extended from a side of the sliding plate 232 close to the adjustment unit 22 toward a direction away from the adjustment unit 22, and the concavely extended shape and size may be adapted to the second elastic protrusion 226. When the user adjusts the distance between the first temple 31 and the connector 21 and the distance between the second temple 32 and the connector 21, the second elastic protrusion 226 can be inserted into the positioning groove 233, so that the distance between the first temple 31 and the connector 21 and the distance between the second temple 32 and the connector 21 can be fixed. The connecting post 234 can be detachably connected with the first front leg unit 311 and the connecting post 234 can be detachably connected with the second front leg unit 321, so that customization of the intelligent glasses can be facilitated.
In some embodiments, as shown in fig. 4, 10, 11 and 12, the smart glasses include two smart components 40, one smart component 40 is disposed in the first glasses leg 31, the other smart component 40 is disposed in the second glasses leg 32, the second glasses leg 32 includes a second front leg unit 321 and a second rear leg unit 322, the second front leg unit 321 and the second rear leg unit 322 are sequentially arranged along the extending direction of the second glasses leg 32, one control module 41 is disposed in a cavity of the second front leg unit 321, the control module 41 is detachably connected with the second front leg unit 321, one sounding module 43 is disposed in a region close to the second front leg unit 321 in the cavity of the second rear leg unit 322, one battery module 42 is disposed in a region far from the second front leg unit 321 in the cavity of the second rear leg unit 322, and the control module 41, the battery module 42 and the sounding module 43 disposed in the second glasses leg 32 are electrically connected through an electrical path module 44.
In this embodiment, as shown in fig. 4, 10, 11 and 12, the smart glasses may include two smart components 40, where the circuit board 411 of one smart component 40 may receive signals from the mobile phone of the user and transmit the signals to the circuit board 411 of the other smart component 40, so that the circuit boards 411 of the two smart components 40 may be prevented from receiving signals simultaneously, and the energy consumption of the smart glasses is reduced. The energy consumption of intelligent glasses is reduced, can let intelligent glasses carry on less battery module 42 and can satisfy user's daily demand, less battery module 42 can further reduce intelligent glasses's weight, reaches the effect that promotes user's use comfort level. One intelligent component 40 is arranged in the first glasses leg 31 of the user, and the other intelligent component 40 is arranged in the second glasses leg 32 of the user, so that the weight of the intelligent glasses can be balanced. The second temple 32 may include a second front leg unit 321, a second rear leg unit 322. The second front leg unit 321 and the second rear leg unit 322 are sequentially arranged along the extending direction of the second temple 32. Different components in the intelligent component 40 can be arranged in the second front leg unit 321 and the second rear leg unit 322, so that the weight distribution of the intelligent glasses is uniform, and the effect of improving the comfort of a user is achieved. A control module 41 may be provided in the cavity of the second front leg unit 321, and a user may perform a predetermined operation (may be adjusting volume, evoking a voice assistant, switching music) on the connected device through the control module 41. Because the space in the cavity of the second front leg unit 321 is small, the control module 41 can be detachably connected with the second front leg unit 321, so that the control module 41 and the second front leg unit 321 can be assembled conveniently. One sounding module 43 can be arranged in the cavity of the second rear leg unit 322 near the area of the second front leg unit 321, when a user wears the intelligent glasses, the second rear leg unit 322 is usually positioned behind the ears, the sounding module 43 can be arranged in the cavity of the second rear leg unit 322 near the area of the second front leg unit 321, the weight of the front and rear ears can be balanced, and the comfort of the user is improved. One battery module 42 may be disposed in a region of the cavity of the second rear leg unit 322 away from the second front leg unit 321, which may further balance the weight and reduce the probability of the smart glasses slipping down during the user's activities. The control module 41 and the battery module 42 provided in the second temple 32 may be electrically connected by an electrical communication module 44, so that the battery module 42 supplies power to the control module 41. The sounding module 43 and the battery module 42 provided in the second temple 32 may be electrically connected by the electrical communication module 44, so that the battery module 42 supplies power to the sounding module 43. The control module 41 and the sounding module 43 provided in the second temple 32 may be electrically connected through the electrical communication module 44, so that the sounding module 43 may receive a signal from the control module 41 to play audio according to an intended or predetermined program.
In other embodiments, the second front leg unit 321 may include a second front leg body 3211, a second front leg partition plate 3212. The second front leg front receiving segment 32111. The second front leg body 3211 may be configured as a hollow structure, which may provide an installation space for the control module 41, thereby making the smart glasses compact. The second front leg partition plate 3212 may be fixedly connected to an inner peripheral wall of the second front leg body 3211 to partition the second front leg body 3211 into a second front leg accommodating section 32111 and a second front leg rear accommodating section 32112, so that adjacent components may be separated from each other to avoid collision, and the second front leg partition plate 3212 may further improve strength of the second front leg body 3211 to improve durability of the second front leg body 3211. In order to provide dust and water resistance to the adjustment assembly 20, some of the components of the adjustment assembly 20 may be housed within the second front leg forward housing segment 32111 adjacent the lens assembly 10, in this manner also reducing the volume of the adjustment assembly 20 when assembled with the second front leg body 3211. The control module 41 can be accommodated in the second front leg rear accommodating section 32112, and dustproof and waterproof performance of the control module 41 can be realized through the sealed second front leg rear accommodating section 32112, so that the service life of the intelligent glasses can be prolonged. The second back leg unit 322 may include a second back leg body 3221, a second back leg partition plate 3224. The second rear leg 3221 is provided with a hollow structure, so that an installation space can be reserved for the sounding module 43 and the battery module 42, and the smart glasses are compact. The second back leg partition plate 3224 can be fixedly connected to the inner peripheral wall of the second back leg 3221, the second back leg 3221 can be partitioned into a second back leg front accommodating section 32211 and a second back leg rear accommodating section 32215, and the strength of the second back leg 3221 can be improved, so that the service life of the intelligent glasses is prolonged. In order to prevent intelligent glasses landing, hold section 32211 before the second back leg and hold section 32215 and be the contained angle setting behind the second back leg, hold section 32215 behind the letting the second back leg and can catch on user's ear, reduce intelligent glasses landing's probability. The angled portion of second rear leg 3221 may be closer to second rear leg forward receiving section 32211 leaving second rear leg rearward receiving section 32215 substantially unbent, thereby facilitating installation of sound emitting module 43, battery module 42 within the interior cavity of second rear leg rearward receiving section 32215. One end of the second back leg front accommodating section 32211 can be detachably connected with one end of the second retainer 422, so that the second back leg front accommodating section 32211 and the second retainer 422 can be conveniently installed, and the modular assembly of the intelligent glasses can be facilitated, so that the production cost is reduced. After the user wears the intelligent glasses, the distance between the ear of the user and the position of the second rear leg rear accommodating section 32215, which is close to the position of the second rear leg front accommodating section 32211, is relatively short, so that the user can clearly hear the audio played by the intelligent glasses and balance the weight of the intelligent glasses, and the sounding module 43 can be arranged in the hollow space of the second rear leg rear accommodating section 32215, which is close to the second rear leg front accommodating section 32211. The battery module 42 can be disposed in the hollow space of the second rear leg rear receiving section 32215 away from the second rear leg front receiving section 32211, so that the battery module 42 can be conveniently charged or replaced, and the weight balance of the smart glasses can be facilitated. The first rear leg 3121 may also include a first channel 31212, a first sound outlet 31213. The first channel 31212 may pass through the first rear leg divider panel 3124, communicating the hollow cavity of the first rear leg forward receiving section 31211 with the sound emitting module 43. When the user wears the smart glasses, the first rear-leg front receiving section 31211 is closest to the user's ear, and the first rear-leg unit 312 is installed above the user's ear, so that the first sound outlet 31213 may be disposed on a side of the first rear-leg front receiving section 31211 near the extended end of the first rear-leg rear receiving section 31215, so that the distance between the first sound outlet 31213 and the user's ear is shortened. When the sounding module 43 plays audio according to the signal transmitted by the circuit board 411, the audio can move toward the sound outlet through the first sound channel 31212 and then be transmitted to the ear of the user through the sound outlet, so that the user can clearly hear the audio. Since the second holder 422 and the second rear leg front accommodating section 32211 are independent of each other, in order to make the appearance of the second holder 422 and the second rear leg front accommodating section 32211 smooth after assembly, no redundant recess and protrusion are provided, the abutting end surfaces of the second holder 422 and the second rear leg front accommodating section 32211 may be connected by screws. Therefore, a second mounting hole 32214 for communicating the inner cavity of the second rear leg front receiving section 32211 with the outer space may be provided at the outer circumferential wall of the second rear leg front receiving section 32211 to provide an operation space for the locking screw. The second rear leg unit 322 may further include a second rear leg side cover 3223, a second rear leg rear cover 3222, and after the second front leg unit 321 and the second rear leg unit 322 are connected, the second rear leg side cover 3223 may be connected to the second mounting hole 32214 in a clamping manner, so as to achieve a dustproof and waterproof effect. The second back leg rear cover 3222 may be detachably connected to an end of the second back leg body 3221 remote from the second front leg body 3211. Because the second rear leg 3221 has a compact inner space, the battery module 42, the sound emitting module 43, and the electric communication module 44 can be assembled into the second rear leg 3221, and the second rear leg rear cover 3222 is connected to the second rear leg 3221, thereby facilitating installation and reducing production costs. Second back leg 3221 may further include a second channel 32212, a second sound outlet 32213. The second channel 32212 may pass through the second back leg separation plate 3224, communicating the hollow cavity of the second back leg front receiving section 32211 with the sound emitting module 43. When the user wears the smart glasses, the second back leg front receiving section 32211 is closest to the ear of the user, and the second back leg unit 322 is mounted above the ear of the user, so that the second sound outlet 32213 may be disposed on a side of the second back leg front receiving section 32211 close to the extending end of the second back leg rear receiving section 32215, so that the distance between the second sound outlet 32213 and the ear of the user is shortened. When the sound emitting module 43 plays the audio according to the signal transmitted by the circuit board 411, the audio can move towards the sound outlet through the second channel 32212 and then be transmitted to the ear of the user through the sound outlet, so that the user can clearly hear the audio.
It will be understood by those of ordinary skill in the art that the foregoing embodiments are specific examples of implementing the disclosure, and that various changes in form and details may be made therein without departing from the spirit and scope of the disclosure.