CN108936999B - Intelligent finger ring - Google Patents

Abstract

The invention discloses an intelligent finger ring, which comprises a finger ring main body and a finger ring support used for being worn on a finger, wherein the finger ring main body is connected with the finger ring support and comprises a PCB module and a plurality of functional components connected with the PCB module through signals, the PCB module is connected with a mode switching assembly through signals, and the PCB module can switch working modes according to the signals of the mode switching assembly so as to correspondingly control the opening and closing of the functional components. Compared with the intelligent finger ring worn on the wrist in the prior art, the intelligent finger ring can be taken off by directly taking off the intelligent finger ring along the finger, the intelligent finger ring is convenient to take off, meanwhile, due to the arrangement of the mode switching assembly, the PCB module can switch the working mode to correspondingly control the opening and closing conditions of all the functional components, all the functional components can be prevented from being in the starting state all the time when not used, the energy is saved, and the use cost is reduced.

Description

Intelligent finger ring

Technical Field

The invention relates to the technical field of wearable equipment, in particular to an intelligent finger ring.

Background

Currently, smart bracelets generally take the form of a wrist-worn structure. Since the width of the hand is typically greater than the wrist, to achieve donning of the smart wristband requires a complex wristband assembly to be designed to achieve the connection between the wristband body and the wrist. The wristband assembly typically includes two straps and a clasp assembly disposed between the two straps that need to be opened to separate the two straps when the smart wristband is removed, often requiring a long time, and the smart wristband is difficult to remove from the wristband. Meanwhile, in the existing intelligent bracelet, all functional components can not be selectively opened and closed, but are in a synchronous opening state, so that energy waste is caused.

Therefore, how to make the smart wristband take off from the hand more conveniently and save energy is a technical problem that the person skilled in the art needs to solve at present.

Disclosure of Invention

In view of the above, the present invention aims to provide an intelligent finger ring which can be conveniently detached from the hand, and is beneficial to saving energy.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the utility model provides an intelligent ring, includes the ring main part, still including being used for wearing the ring support on the finger, the ring main part connect in the ring support, the ring main part include PCB module and a plurality of signal connection in the functional unit of PCB module, PCB module signal connection has mode switching assembly, the PCB module can be according to mode switching assembly's signal switching mode to correspond control each the opening and close of functional unit.

Preferably, the mode switching assembly comprises a sensor connected with the PCB module in a signal mode, and the PCB module can switch the working mode according to the signal of the sensor.

Preferably, the finger ring support is detachably connected with the finger ring main body.

Preferably, the mode switching assembly comprises a Hall sensor connected to the PCB module through signals and a magnet matched with the Hall sensor; the ring support is separated from the ring main body, and when the Hall sensor collects that the magnetic flux of the magnet is larger than a preset threshold value, the Hall sensor sends a signal to the PCB module, so that the PCB module switches working modes.

Preferably, the functional components include the horn assembly, MIC assembly and display screen assembly; the ring support is separated from the ring main body, and when the Hall sensor collects that the magnetic flux of the magnet is larger than the preset threshold value, the Hall sensor sends a signal to the PCB module so that the PCB module switches the working mode to the communication mode; in the communication mode, the horn assembly, the MIC assembly are in an open state and the display screen assembly is in a closed state, so that the ring body can be used as a headset of a mobile electronic device.

Preferably, the finger ring support is detachably clamped with the finger ring main body through a matched clamping buckle and a clamping groove; the clamping groove is an annular groove, and the buckle can rotate in the clamping groove so as to realize the relative rotation of the ring support and the ring main body.

Preferably, the functional components are arranged on two sides of the PCB module in the shell of the finger ring main body.

Preferably, the finger ring body includes a rechargeable battery, the rechargeable battery signal is connected to the PCB module, and the PCB module signal is connected to a charging pin for charging.

Preferably, a battery buffer part is arranged between the rechargeable battery and the shell of the finger ring main body.

Preferably, in the shell of the ring main body, the display screen assembly, the battery, the PCB module and the speaker assembly are sequentially arranged along a preset linear direction, and the battery and the MIC module are arranged between the display screen and the PCB module in parallel.

The intelligent finger ring provided by the invention comprises a finger ring main body and a finger ring bracket connected with the finger ring main body. The ring main body comprises a PCB module and a plurality of functional components connected with the PCB module through signals, the PCB module is connected with a mode switching assembly through signals, and the PCB module can switch working modes according to the signals of the mode switching assembly so as to correspondingly control the opening and closing conditions of the functional components.

Compared with the intelligent finger ring worn on the wrist in the prior art, the intelligent finger ring can be taken off by directly taking off the intelligent finger ring along the finger, the intelligent finger ring is convenient to take off, and meanwhile, the finger ring support of the intelligent finger ring is simple in structure and can simplify processing. Because the intelligent wrist strap in the prior art needs to consume more time when detaching from the wrist, usually needs to set up quick detach structure between wrist strap and wrist strap, just can take off the wrist strap main part fast through quick detach structure separation wrist strap main part and wrist strap, and in the invention, because the wrist strap main part can be followed intelligent finger and wholly break away from the finger, even not set up complicated quick detach part between the wrist strap main part and the ring support and also can take off the wrist strap main part fast. Adopt the ring support to bear the ring main part, compare in the wrist in prior art wears the structure bracelet, can realize the further miniaturization of intelligent bracelet, be favorable to reduce cost, liberated wrist articulation, eliminated the influence of wearing for a long time to the wrist, accord with ergonomic requirement more. The finger ring support can rotate on the finger after being worn on the finger, so that the wearing angle can be adjusted when the finger ring support is worn, the finger ring support can be rotated until the finger ring body is positioned at the palm side when the MIC function of the finger ring body is used, the mouth shape of talking can be well shielded when talking, and the privacy of speaking is protected.

Meanwhile, due to the arrangement of the mode switching assembly, the PCB module can switch the working mode so as to correspondingly control the opening and closing conditions of all the functional components, so that all the functional components can be prevented from being in a starting state all the time when not in use, energy conservation is facilitated, and the use cost can be reduced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only embodiments of the present invention, and that other drawings can be obtained according to the provided drawings without inventive effort for a person skilled in the art.

FIG. 1 is an exploded view of an intelligent finger ring provided by the present invention;

FIG. 2 is an exploded view of a first housing and display assembly of the intelligent finger ring provided by the present invention;

FIG. 3 is a diagram showing the connection between a first housing and a MIC module in an intelligent finger ring according to the present invention;

FIG. 4 is a diagram showing the connection between a PCB module and a battery in an intelligent finger ring according to the present invention;

FIG. 5 is a cross-sectional view of a first housing portion of the smart ring provided by the present invention;

FIG. 6 is a diagram showing the connection between the second housing and the charging Pin in the intelligent finger ring according to the present invention;

FIG. 7 is a diagram showing the connection of a second housing, a speaker dust screen and a heart rate Sensor-FPC assembly in the intelligent finger ring provided by the invention;

FIG. 8 is a cross-sectional view of a second housing portion of the smart ring provided by the present invention;

FIG. 9 is a cross-sectional view of a finger ring body of the intelligent finger ring provided by the invention;

FIG. 10 is a cross-sectional view of a smart ring provided by the present invention;

FIG. 11 is a schematic diagram of a finger when the intelligent ring provided by the invention is worn on the finger;

FIG. 12 is a schematic view of the intelligent ring according to the present invention when the ring body is positioned on the back side of the hand;

FIG. 13 is a schematic view of the intelligent ring according to the present invention when the ring body is worn on the ear;

FIG. 14 is a schematic view of the smart ring of the present invention with the ring body on the palm side;

fig. 15 is a schematic view of the intelligent finger ring according to the present invention when worn on a user.

In fig. 1 to 15:

the display screen assembly 1, the golden finger 101, the battery buffer component 2, the battery 3, the fixed battery double-sided tape 4, the PCB module 5, the shielding cover 501, the bonding pad 502, the display screen connector 503, the MIC connector 504, the MIC (Microphone) assembly 6, the MIC buffer component 601, the MIC assembly connector 602, the first housing 7, the MIC positioning groove 701, the PCB positioning rib 702, the first housing rib position 703, the PCB module fixing screw 8, the speaker assembly 9, the electric wire 901, the heart rate Sensor-FPC assembly 10, the heart rate assembly connector 1001, the FPC1002, the speaker dustproof mesh 11, the second housing 12, the second housing positioning rib 1201, the second housing limiting groove 1202, the second housing supporting rib 1203, the second housing limiting rib 1204, the second housing glue groove 1205, the clamping groove 1206, the charging Pin13, the magnet 14, the ring bracket 15, the buckle 1501, the mounting groove 1502, the ring body 16 and the finger 17.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The intelligent finger ring is capable of being conveniently taken off from the hand, and is beneficial to saving energy.

In one embodiment of the intelligent ring provided by the present invention, please refer to fig. 1 to 15, which includes a ring main body 16 and a ring support 15 for wearing on a finger 17, wherein the ring main body 16 is connected to the ring support 15.

The finger ring main body 16 includes a PCB module 5 and a plurality of functional components, each functional component is connected with the PCB module 5 through signals respectively, and the PCB module 5 can play a role in control. The PCB module 5 is connected with a mode switching assembly through signals, and the PCB module 5 can switch working modes according to the signals of the mode switching assembly so as to correspondingly control the opening and closing of each functional component.

The functional components in the finger ring main body 16 may be set according to actual needs, and may include a display screen assembly 1, a heart rate measurement assembly, a speaker assembly 9, a MIC assembly 6, a payment assembly, a step counting assembly, and the like. Wherein a part of the functional components may be provided on the PCB module 5. Specifically, since the function of the ring body 16 is equivalent to that of the wrist-worn smart band in the prior art, the functional components of the ring body 16 may be disposed in a manner similar to that of the smart band in the prior art.

Wherein, a plurality of working modes are prestored in the PCB module 5, and under each working mode, each functional component is correspondingly started or closed. In a specific embodiment, the operation mode may include a bracelet mode, a communication mode, a MIC mode, etc. In the bracelet mode, the heart rate measuring assembly, the display screen assembly 1, the payment assembly and the step counting assembly are in a starting state; in the communication mode, the horn assembly 9 and MIC assembly 6 are in an activated state and cooperate as a headset for a mobile electronic device, while the display screen assembly 1 is in a closed state. In MIC mode, the MIC assembly 6 is in an activated state and the horn assembly 9 is in a closed state, at which time the MIC assembly 6 may be specifically used in conjunction with headphones signally connected to the PCB module 5.

With reference to fig. 10, the ring support 15 is preferably provided with an opening, so that the size of the ring support 15 is relatively adjustable, and the ring support is convenient to wear. In addition, the finger ring 15 is preferably elastic to improve the usability.

The intelligent finger ring in this embodiment can be worn on the finger 17, and as shown in fig. 11 and 12, the intelligent finger ring can be conveniently taken off by directly taking off the intelligent finger ring along the finger 17. Meanwhile, due to the arrangement of the mode switching assembly, the PCB module 5 can switch the working mode so as to correspondingly control the opening and closing conditions of all the functional components, so that all the functional components can be prevented from being in a starting state all the time when not in use, and energy conservation is facilitated.

On the basis of the above embodiment, the mode switching assembly may specifically include a sensor connected to the PCB module 5 by a signal, and the PCB module 5 can switch the working mode according to the signal of the sensor.

In this embodiment, the PCB module 5 can generate a control instruction according to the sensing result of the sensor to switch the working mode, so that the automation degree of switching control is high.

On the basis of any of the above embodiments, the ring support 15 may be detachably connected to the ring main body 16, and when the ring support 15 is damaged, the ring support 15 may be directly replaced, and the ring main body 16 that is not damaged may still be used continuously. In addition, when the intelligent ring is used as a headset or earphone, the ring main body 16 can be detached from the ring bracket 15, and only the ring main body 16 is placed in the ear, so that the load of the ear can be reduced.

Preferably, the finger ring body 16 may be shaped to fit the ear, as may be specifically referred to in the prior art in-ear headphones, to improve comfort of the finger ring body 16 when placed in the ear.

Preferably, the smart ring may further include an ear hook for hanging on an ear, and the ear hook may be detachably connected to the ring body 16, so as to improve stability of the ring body 16 when placed on the ear.

On the basis of any of the above embodiments, the mode switching assembly may specifically include a hall sensor (not shown) signally connected to the PCB module 5 and a magnet 14 cooperating with the hall sensor. When the finger ring main body 16 is separated from the finger ring support 15, the magnetic flux collected by the hall sensor changes, and when the magnetic flux is greater than a preset threshold value, the hall sensor sends a signal to the PCB module 5 to enable the PCB module 5 to switch the working mode.

The Hall sensor is a switch component manufactured by utilizing the Hall effect principle, and is equivalent to the action of a switch, when the Hall sensor can monitor an external magnetic substance with certain intensity, the magnetic flux collected by the Hall sensor is in a conducting state when the magnetic flux is larger than a preset threshold value, and when the Hall sensor does not monitor the external magnetic substance or the magnetic flux is not larger than the preset threshold value, the Hall sensor is in a closing state.

In a preferred arrangement of the hall sensor and the magnet 14, the magnet 14 may be disposed in both the ring support 15 and the ring body 16 and interact, with the hall sensor being disposed in the ring body 16. In particular, magnets 14 on ring body 16 may be disposed in horn assembly 9 on ring body 16. When the ring main body 16 is connected and fixed with the ring support 15, the magnet 14 on the ring support 15 and the magnet 14 in the loudspeaker assembly 9 are mutually influenced, at the moment, the magnetic flux collected by the hall sensor can be specifically a preset threshold value, and when the ring main body 16 is separated from the ring support 15, the magnetic flux collected by the hall sensor changes due to the interaction between the magnets 14, and when the magnetic flux is larger than the preset threshold value, a signal is sent to the PCB module 5, so that the PCB module 5 switches the working mode. Of course, the magnets 14 on the ring body 16 may not be provided on the horn assembly 9, and may be provided on the housing of the ring body 16, for example.

Or, for the above preferred arrangement, the hall sensor may be instead disposed in the finger ring support 15, and connected with the PCB module 5 by a wireless communication manner.

Further, the hall sensor may be provided on the ring body 16, and the magnet 14 may be provided only on the ring frame 15.

In this embodiment, the hall sensor is matched with the magnet 14, after the ring support 15 is separated from the ring main body 16, the hall sensor collects the magnetic flux of the magnet 14 to change, and when the magnetic flux reaches a preset threshold value, the hall sensor can automatically generate a signal to enable the PCB module 5 to switch the working mode, that is, the switching of the working mode is automatically completed once in the process of separating the ring support 15 from the ring main body 16. In addition, the Hall sensor is adopted, so that the installation is convenient and the power consumption is low.

On the basis of any of the above embodiments, the functional components may specifically include the horn assembly, the MIC assembly 6 and the display screen assembly 1. The ring support 15 is separated from the ring main body 16, and when the hall sensor collects the magnetic flux of the magnet 14 greater than the preset threshold value, the hall sensor sends a signal to the PCB module 5, so that the PCB module 5 switches the working mode to the communication mode. In the communication mode, the speaker assembly 9, MIC assembly 6 are in an open state and the display assembly 1 is in a closed state, so that the ring body 16 can act as a headset for the mobile electronic device. Of course, according to actual needs, in the communication mode, other communication-independent functional components such as the heart rate measurement assembly may be set to be in a closed state.

The mobile electronic device may specifically include a notebook, a mobile phone, a tablet computer, and other devices. The mobile electronic device and the PCB module 5 may be connected by a connection module such as a bluetooth module.

Wherein, the display screen assembly 1 is preferably a full-lamination screen assembly so as to ensure light transmittance.

In a specific application, when a user calls, the user can remove the ring main body 16 from the ring support 15, the magnet 14 on the ring support 15 and the magnet 14 on the horn inside the product combine with the hall effect to generate a signal, and the PCB module 5 receives the signal to control the display screen assembly 1 to be in a closed state, and the MIC assembly 6 and the horn assembly 9 to be in an open state, so that the working mode is switched to the communication mode.

In this embodiment, the hall sensor may correspond to the control of the on of the communication mode. Because in the actual use process, the ring main body 16 is taken off from the ring support 15 mainly for facilitating communication, and in the communication mode, the display screen assembly 1 is in a closed state, so that not only is energy saving beneficial, but also the interference caused by the starting of the display screen assembly 1 to the communication function can be avoided, and the communication effect is guaranteed.

In addition, after the finger ring main body 16 is reconnected to the finger ring support 15, the PCB module 5 can switch the working mode from the communication mode to other preset modes according to the signal of the hall sensor. Alternatively, after the finger ring main body 16 is reconnected to the finger ring support 15, the PCB module 5 may switch the operation mode from the communication mode to other preset modes according to signals of other components except the hall sensor in the mode switching assembly.

Obviously, the mode switching component is not limited to being set up in the manner provided by the various embodiments above.

In a specific embodiment, the mode switching assembly may include an acceleration sensor signally connected to the PCB module 5, the acceleration sensor may monitor the vibration amount, and the PCB module 5 may switch the operation mode according to the number of vibrations monitored by the acceleration sensor. For example, when the acceleration sensor detects that the sensing area on the finger ring main body 16 is knocked three times, the operation mode is switched to the communication mode; when the acceleration sensor detects that the sensing area on the finger ring body 16 is tapped five times, the operation mode is switched to the bracelet mode.

In another specific embodiment, the mode switching assembly may include a knob disposed on the finger ring body 16, the knob being signally connected to the PCB module 5, the rotation angle of the knob corresponding to each operation mode. For example, when the knob is rotated by 30 degrees relative to the reference position, the PCB module 5 switches the operation mode to the communication mode; when the knob rotates by 60 degrees relative to the reference position, the PCB module 5 switches the working mode to the bracelet mode.

In another embodiment, the mode switching assembly may include keys disposed on the ring body 16, the key signals are connected to the PCB module 5, and one key corresponds to one operation mode.

It should be noted that the mode switching component may include only one switching mode, for example, only the switching mode provided by the embodiment in which the hall sensor is provided; alternatively, the mode switching component may include at least two switching modes, for example, the switching modes provided by the embodiment of setting the hall sensor and the embodiment of setting the key.

On the basis of any of the above embodiments, the finger ring support 15 and the finger ring main body 16 can be detachably clamped with the clamping groove 1206 through the matched clamping buckle 1501, so that the processing is convenient. In addition, the slot 1206 may be configured as an annular groove, and the catch 1501 can rotate within the slot 1206 to effect relative rotation of the ring support 15 and the ring body 16. The clamping groove 1206 is arranged as an annular groove, and in the process of assembling the ring main body 16 and the ring support 15, the ring main body 16 is pressed towards the ring support 15 at any angle, so that the ring main body 16 and the ring support 15 can be mounted without aligning the ring main body 16 with a certain specific angle on the ring support 15 during assembly, and the assembly time is saved.

Optionally, the buckle 1501 may be provided with a certain elasticity, so as to facilitate the disassembling operation between the ring main body 16 and the ring support 15, and facilitate reducing the impact damage of the buckle 1501 and the slot 1206 during the disassembling process.

Optionally, a certain gap may exist between the buckle 1501 and the slot 1206 after the buckle is engaged, so as to ensure that the buckle 1501 can smoothly and freely rotate in the slot 1206.

Optionally, referring to fig. 1, 9 and 10, a mounting groove 1502 for supporting the ring body 16 may be provided on the ring support 15, and when the ring body 16 is connected to the ring support 15, a portion of the ring body 16 is located in the mounting groove 1502, and the mounting groove 1502 may stably support the ring body 16, so as to improve the connection stability of the ring body 16 to the ring support 15. Meanwhile, a buckle 1501 is fixedly arranged on the inner side wall of the mounting groove 1502, and correspondingly, a clamping groove 1206 is arranged on the finger ring main body 16 so as to be detachably clamped with the buckle 1501.

On the basis of any of the above embodiments, functional components may be disposed on both sides of the PCB module 5 within the housing of the finger ring body 16.

Through the arrangement of this embodiment, the PCB module 5 is located at the middle position of each functional component in the finger ring main body 16, so that the arrangement of the components such as connectors and wires between the PCB module 5 and each functional component can be facilitated.

On the basis of any of the above embodiments, the finger ring body 16 may include a rechargeable battery, the rechargeable battery is signal-connected to the PCB module 5, and the PCB module 5 is signal-connected to the charging pin13 for charging. The charging Pin13 should be exposed out of the housing of the finger ring body 16.

In this embodiment, the battery 3 in the finger ring main body 16 is a rechargeable battery, which is economical and environment-friendly, and can meet the requirement of using the intelligent finger ring for a long time.

Further, a battery buffer member 2, specifically a battery buffer foam, may be disposed between the rechargeable battery and the housing of the finger ring body 16, so as to reduce impact damage between the battery 3 and the housing.

On the basis of any of the above embodiments, the display screen assembly 1, the battery 3, the PCB module 5 and the speaker assembly 9 may be sequentially disposed along a predetermined straight line direction in the housing of the finger ring main body 16, and the battery 3 and the MIC module 6 are disposed between the display screen 1 and the PCB module 5 in parallel.

Wherein, the battery 3 can be directly and fixedly connected with the PCB module 5; the PCB module 5, the loudspeaker assembly 9, the display screen assembly 1 and the MIC assembly 6 can be directly and fixedly connected with the shell.

By arranging the components such as the PCB module 5 and the battery 3 in the mode of the embodiment, the space in the shell can be reasonably distributed, so that the arrangement of the components in the shell is more regular, and the assembly of the ring main body 16 is facilitated.

On the basis of any of the above embodiments, the housing may specifically include a first shell 7 and a second shell 12 fixed to the first shell 7, so as to facilitate the assembly of the various components in the finger ring body 16 with the housing.

Alternatively, referring to fig. 9, the first housing rib 703 on the first housing 7 and the second housing glue groove 1205 on the second housing 12 may be fixed by hot melt glue, so as to achieve reliable connection between the first housing 7 and the second housing 12. Of course, the first housing 7 and the second housing 12 may also be fixedly connected by screw connection, threaded connection or other means.

Specifically, in the first housing 7, referring to fig. 2, the display screen assembly 1 may be fixedly connected to the first housing 7 through a dispensing process, and specifically, the display screen assembly 1 is exposed to the first housing 7. Referring to fig. 3 to 5, the PCB module 5 is disposed at an opening of the first housing 7 for abutting against the second housing 12, and the battery 3 and the MIC assembly 6 are disposed between the display assembly 1 and the PCB module 5. The battery 3 may be attached or otherwise connected to the shield 501 of the PCB module 5 by a fixed battery double sided adhesive 4. Wherein, battery buffer foam can be arranged between the battery 3 and the first shell 7 for buffering. Alternatively, the battery buffer foam may be adhered to the corresponding limit groove on the inner side of the first housing 7. The fixing portion of the MIC assembly 6 may be fixed to the first housing 7 by a hot melt process, and the MIC buffer member 601 of the MIC assembly 6 is compressed and then attached to the inner wall of the MIC positioning groove 701 of the first housing 7. Alternatively, the MIC cushion part 601 may be a cushion foam. The PCB module 5 may be specifically positioned by a PCB positioning rib 702 on the first housing 7, and then fixed on the first housing 7 by a PCB module fixing screw 8. Alternatively, the number of PCB module set screws 8 may be set as desired, such as 4 or other numbers.

Wherein, alternatively, the battery wires of the battery 3 may be soldered to the pads 502 of the PCB module 5 through a pressure welding process or other soldering process to realize signal connection of the battery 3 and the PCB module 5. The MIC component connector 602 on the MIC component 6 is fixedly connected with the MIC connector 504 on the PCB module 5, and the golden finger 101 on the display screen component 1 is fixedly connected with the display screen connector 503 on the PCB module 5 so as to correspondingly realize the signal connection of the display screen component 1 and the MIC component 6 with the PCB module 5. Of course, the MIC assembly 6, the display assembly 1 may also be connected to the PCB module 5 by soldering, electrical wiring or other means.

Specifically, in the second housing 12, referring to fig. 6 and 7, the charging Pin13 may be fixed into the corresponding stepped hole of the second housing 12 through interference and dispensing processes. The middle part of the second shell 12 can be provided with a loudspeaker dustproof mesh cloth 11, and the charging Pin13 is positioned at the outer side of the loudspeaker dustproof mesh cloth 11. Alternatively, the speaker dust screen cloth 11 may be fixed to the second housing restricting groove 1202 by self-adhesive backing. The heart rate Sensor-FPC assembly 10 is arranged at the edge of the second shell 12, which is positioned on the loudspeaker dustproof mesh cloth 11, the heart rate Sensor-FPC assembly 10 can be adhered to the inner wall of the second shell 12 through back glue, and the reinforcing area FPC1002 can be fixed on the second shell 12 through the second shell positioning ribs 1201. The horn assembly 9 may be positioned on the second housing 12 by the second housing support bars 1203 and the second housing stopper bars 1204, and then fixed to the second housing 12 by a dispensing process. The horn assembly 9 is arranged at an opening of the second shell 12, which is butted with the first shell 7.

The charging Pin13 may be integrated with the copper exposure area on the heart rate Sensor-FPC assembly 10 by soldering through a laser welding process, so as to realize a charging function. The heart rate module connector 1001 of the heart rate Sensor-FPC module 10 is fixedly connected with the PCB module 5. The wires 901 of the horn assembly 9 are connected to the PCB module 5 to achieve signal connection of the horn assembly 9 to the PCB module 5.

Referring to fig. 9 and 10, after the first housing 7, the second housing 12 and the components thereof are assembled, the finger ring body 16 is assembled. At this time, the intelligent ring can be assembled by connecting the ring main body 16 to the ring support 15. In a specific embodiment, the second housing 12 is provided with a slot 1206, and correspondingly, the ring support 15 is provided with a buckle 1501, and the detachable connection between the ring support 15 and the ring main body 16 is realized through the detachable connection between the slot 1206 and the buckle 1501. The intelligent finger ring assembly is completed, the direction from the display screen assembly 1 to the finger ring support 15 in the shell can be sequentially a display screen assembly 1, a battery 3, a PCB module 5, a loudspeaker assembly 9 and a charging Pin13, wherein the battery 3 and the MIC assembly 6 are arranged between the PCB module 5 and the display screen assembly 1 in parallel, and a heart rate Sensor-FPC assembly 10 is arranged around the loudspeaker assembly 9.

In addition, for the connection between the ring main body 16 and the ring support 15, in addition to the engagement between the buckle 1501 and the slot 1206 provided in the above embodiments, a threaded connection, welding or other manners may be adopted.

In the present specification, each embodiment is described in a progressive manner, and each embodiment is mainly described in a different point from other embodiments, and identical and similar parts between the embodiments are all enough to refer to each other.

The intelligent finger ring provided by the invention is described in detail above. The principles and embodiments of the present invention have been described herein with reference to specific examples, the description of which is intended only to facilitate an understanding of the method of the present invention and its core ideas. It should be noted that it will be apparent to those skilled in the art that various modifications and adaptations of the invention can be made without departing from the principles of the invention and these modifications and adaptations are intended to be within the scope of the invention as defined in the following claims.

Claims (10)

1. The intelligent finger ring comprises a finger ring main body (16), and is characterized by further comprising a finger ring support (15) worn on a finger (17), wherein the finger ring main body (16) is connected to the finger ring support (15), the finger ring main body (16) comprises a PCB module (5) and a plurality of functional components connected with the PCB module (5) through signals, the functional components comprise a loudspeaker assembly (9), a MIC assembly (6) and a display screen assembly (1), the PCB module (5) is connected with a mode switching assembly through signals, and the PCB module (5) can switch working modes according to the signals of the mode switching assembly so as to correspondingly control the opening and closing of each functional component;

the work modes comprise a communication mode and a MIC mode, in the communication mode, the horn assembly (9) and the MIC assembly (6) are in an opening state and the display screen assembly (1) is in a closing state, so that the ring main body (16) can be used as a headset of mobile electronic equipment, and in the MIC mode, the MIC assembly (6) is in an opening state and the horn assembly (9) is in a closing state.

2. The intelligent finger ring according to claim 1, wherein the mode switching assembly comprises a sensor signally connected to the PCB module (5), the PCB module (5) being capable of switching operating modes in dependence on the signal of the sensor.

3. Intelligent finger ring according to claim 1, characterized in that the finger ring holder (15) is detachably connected to the finger ring body (16).

4. A smart finger ring according to claim 3, wherein the mode switching assembly comprises a hall sensor signally connected to the PCB module (5) and a magnet (14) cooperating with the hall sensor; the ring support (15) is separated from the ring main body (16), and when the Hall sensor collects that the magnetic flux of the magnet (14) is larger than a preset threshold value, the Hall sensor sends a signal to the PCB module (5) so that the PCB module (5) switches the working mode.

5. The intelligent finger ring according to claim 4, wherein the finger ring support (15) is separated from the finger ring main body (16) and the hall sensor sends a signal to the PCB module (5) when the magnetic flux of the magnet (14) is greater than the preset threshold value, so that the PCB module (5) switches the working mode to the communication mode.

6. The intelligent finger ring according to claim 1, wherein the finger ring support (15) is detachably clamped with the clamping groove (1206) through a matched clamping buckle (1501) between the finger ring support and the finger ring main body (16); the clamping groove (1206) is an annular groove, and the buckle (1501) can rotate in the clamping groove (1206) so as to realize the relative rotation of the ring support (15) and the ring main body (16).

7. Intelligent finger ring according to any of claims 1-6, characterized in that the functional components are provided on both sides of the PCB module (5) within the housing of the finger ring body (16).

8. Intelligent finger ring according to any of claims 1-6, characterized in that the finger ring body (16) comprises a rechargeable battery, which is signally connected to the PCB module (5), and the PCB module (5) is signally connected to a charging pin (13) for charging.

9. Intelligent finger ring according to claim 8, characterized in that a battery buffer part (2) is arranged between the rechargeable battery and the housing of the finger ring body (16).

10. The intelligent finger ring according to claim 5, wherein the display screen assembly (1), the battery (3), the PCB module (5) and the speaker assembly (9) are sequentially disposed in a preset linear direction in the housing of the finger ring main body (16), and the battery (3) and the MIC assembly (6) are disposed between the display screen assembly (1) and the PCB module (5) in parallel.