CN220307384U - Wearable device - Google Patents

Wearable device Download PDF

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Publication number
CN220307384U
CN220307384U CN202321899375.7U CN202321899375U CN220307384U CN 220307384 U CN220307384 U CN 220307384U CN 202321899375 U CN202321899375 U CN 202321899375U CN 220307384 U CN220307384 U CN 220307384U
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China
Prior art keywords
housing
hearing aid
assembly
charging
wearable device
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Active
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CN202321899375.7U
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Chinese (zh)
Inventor
陈亮
吴岳峰
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Guangdong Aibo Technology Co ltd
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Guangdong Aibo Technology Co ltd
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Priority to CN202321899375.7U priority Critical patent/CN220307384U/en
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Publication of CN220307384U publication Critical patent/CN220307384U/en
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Abstract

The utility model discloses wearable equipment, and relates to the technical field of hearing assistance. The hearing aid includes a housing, a first charging assembly, and a first battery electrically connected to the first charging assembly. The wearable electronic device includes a housing assembly, a second charging assembly, and a second battery. The shell component is suitable for being worn on a human body and is provided with a containing bin with one end communicated with the outside, and the hearing aid is arranged in the containing bin in a removable way; the second charging assembly is connected with the shell assembly and is at least partially positioned in the accommodating bin, and when the hearing aid is positioned in the accommodating bin, the first charging assembly is electrically connected with the second charging assembly so as to charge the first battery; the second battery is electrically connected with the second charging assembly. The hearing aid can be conveniently placed in the accommodating bin for charging, and the use is not easily influenced due to forgetting.

Description

Wearable device
Technical Field
The utility model relates to the technical field of hearing assistance, in particular to wearable equipment.
Background
Hearing aids, such as hearing aids and hearing aids, are instruments that help improve hearing. In some cases, the hearing aid may amplify the sound signal in the environment to make the sound more clearly heard by the person. In other cases, the hearing aid may amplify the otherwise inaudible sound and reuse the residual hearing of the hearing impaired person to allow the sound to be delivered to the brain auditory center while the sound is perceived, thereby providing convenience to the hearing impaired person.
Currently, some hearing aids are internally provided with a battery, which is used for supplying power to the hearing aid, and after the power of the hearing aid is reduced, the hearing aid can be charged in a wired or wireless manner.
The wired charging needs to charge after being connected with the charger through the charging wire, and the carrying and the storage of hearing aid are comparatively inconvenient, and wireless charging needs to place the hearing aid in the box that charges, need carry the box that charges, otherwise be difficult to timely use the hearing aid when needs. In the prior art, the charging modes have certain inconveniences, special charging tools are needed for charging the hearing aid, and normal hearing aid use can be influenced due to forgetting to carry the hearing aid.
Accordingly, there is a need for an improvement over the prior art to overcome the deficiencies described in the prior art.
Disclosure of Invention
The utility model aims to provide a wearable device, which can conveniently charge a hearing aid and is more convenient to carry and store the hearing aid.
In order to achieve the above object, the present utility model provides a wearable device, including: a hearing aid and a wearable electronic device;
the hearing aid comprises a housing, a first charging assembly, and a first battery electrically connected to the first charging assembly;
the wearable electronic device includes:
the shell assembly is suitable for being worn on a human body, is provided with a containing bin with one end communicated with the outside, and the hearing aid device is arranged in the containing bin in a removable way;
the second charging assembly is connected with the shell assembly and is at least partially positioned in the accommodating bin, and when the hearing aid is positioned in the accommodating bin, the first charging assembly is electrically connected with the second charging assembly so as to charge the first battery; the method comprises the steps of,
and the second battery is electrically connected with the second charging assembly.
Further, the first charging assembly comprises a first conductive pin partially exposed out of the shell, the second charging assembly comprises a second conductive pin exposed out of the accommodating bin, and when the hearing aid is positioned in the accommodating bin, the second conductive pin is abutted with the first conductive pin.
Further, the second charging assembly comprises two second conductive pins, wherein one second conductive pin is used for providing charging voltage, and the other second conductive pin is grounded; or,
the second charging assembly comprises three second conductive pins, wherein one second conductive pin is used for providing charging voltage, one second conductive pin is grounded, and one second conductive pin is used for detecting whether the hearing aid is placed in place.
Further, the housing assembly includes a wristband for wearing on a wrist, the housing assembly has a bottom surface for contacting the wrist when worn, a top surface facing away from the wrist, and an outer peripheral surface between the bottom surface and the top surface, and the housing is provided on the top surface or the outer peripheral surface.
Further, the housing assembly is provided with two accommodating chambers, and each accommodating chamber accommodates one hearing aid;
the two accommodating bins are arranged on the top surface of the shell component; or,
one of the two accommodating chambers is arranged on the top surface of the shell component, and the other accommodating chamber is arranged on the outer peripheral surface of the shell component; or,
the two accommodating chambers are arranged on the same side of the outer peripheral surface of the shell component; or,
the two accommodating chambers are respectively arranged on two opposite sides of the outer peripheral surface of the shell component.
Further, the housing assembly is provided with two accommodating chambers, each accommodating chamber accommodates one hearing aid, the two accommodating chambers are arranged on two opposite sides of the outer peripheral surface and are symmetrically arranged, and the two accommodating chambers are arranged in an isolated mode or are communicated.
The second charging assembly comprises a wireless charging transmitting end, the first charging assembly comprises a wireless charging receiving end, and when the hearing aid is located in the accommodating bin, the wireless charging transmitting end and the wireless charging receiving end are matched to charge the first battery in a wireless charging mode.
Further, the hearing aid comprises a first wireless communication module, the wearable electronic device comprises a second wireless communication module, and the first wireless communication module and the second wireless communication module are in communication connection.
Further, the hearing aid comprises a head part arranged at one end of the shell, the shell protrudes outwards relative to the head part, the first charging assembly comprises a first conductive needle, and the projection of the first conductive needle along the axial direction of the head part is positioned outside the head part;
the accommodating bin comprises a first part for accommodating the head part and a second part for accommodating the shell, and the second charging assembly comprises a second conductive needle which is exposed out of the second part;
the first conductive needle and the second conductive needle are arranged along the axial direction of the head, and the hearing aid is plugged into the accommodating bin along the axial direction of the first conductive needle and the second conductive needle.
Further, the wearable electronic device further comprises an accommodating sleeve in the accommodating bin in a sliding fit manner, the hearing aid part is positioned in the accommodating sleeve, and the accommodating sleeve is provided with an avoidance hole for the second conductive needle to penetrate.
Further, the housing assembly is formed with a flange extending into the receiving compartment to define the receiving pocket within the receiving compartment, the flange being located at an open end of the receiving compartment and adapted to the contour of the housing.
Further, the head is provided with a concave hole, and the accommodating sleeve comprises a positioning boss matched with the concave hole.
Further, the wearable electronic device further comprises a snap switch connected to the housing assembly, the snap switch comprising a locked position securing the hearing aid and an unlocked position releasing the hearing aid, the hearing aid being ejected to a position partially outside the housing assembly when the snap switch is in the unlocked position.
Further, the shell assembly comprises an inner shell, an upper shell and a lower shell, wherein the upper shell and the lower shell cover the inner shell in a matched mode from two sides of the inner shell, the upper shell and the lower shell are matched to form a side cavity on the side face of the inner shell, the second battery is contained in the side cavity, and the second battery and the containing bin are respectively located at two sides of the second charging assembly and the snap switch.
Further, the lower shell and the inner shell are matched to form a lower cavity at the lower end, the wearable device further comprises a photoelectric sensor, a vibration motor and a charging unit which are arranged in the lower cavity, the photoelectric sensor and the charging unit are partially exposed out of the bottom surface of the lower shell, and the vibration motor is arranged above the charging unit.
Further, the upper casing and the inner casing are matched to form an upper cavity at the upper end, the wearable device further comprises a display device, a main control circuit board and a flexible circuit board electrically connected with the main control circuit board, the display device and the main control circuit board are located in the upper cavity, and the flexible circuit board extends from the upper cavity to the lower cavity after passing through the side cavity and is electrically connected with the second battery and electrical components in the lower cavity.
Further, the second charging assembly comprises a sub-circuit board fixedly connected with the inner shell and at least two second conductive pins, the second conductive pins are horizontally arranged, the end parts of the second conductive pins are abutted to the sub-circuit board, the second conductive pins are arranged along the vertical direction, and the sub-circuit board is electrically connected with the second conductive pins and the flexible circuit board.
Compared with the prior art, the utility model has the following beneficial effects: according to an embodiment of the wearable device, the wearable device comprises a hearing aid and a wearable electronic device, the housing assembly of the wearable electronic device is suitable for being worn on a human body and is provided with a containing bin for taking and placing the hearing aid, when the hearing aid is placed in the containing bin, the first charging assembly of the wearable device is in butt joint with the second charging assembly in the housing assembly, so that the second battery in the housing assembly can charge the hearing aid, and therefore the hearing aid can be charged by using the housing assembly worn on the human body, and charging is more convenient. Because the hearing aid can be charged while moving along with the human body, the use is not easy to be influenced by forgetting to take the hearing aid, the hearing aid can also supplement electric quantity more timely, and the storage is more convenient.
Drawings
Fig. 1 is a perspective view of a wearable device according to an embodiment of the present utility model.
Fig. 2 is a perspective view of a hearing aid according to one embodiment of the present utility model.
Fig. 3 is a cross-sectional view of the hearing aid shown in fig. 2.
Fig. 4 is a perspective view of a wearable electronic device of an embodiment of the utility model, with the hearing aid not shown.
Fig. 5 is a front view of the wearable electronic device shown in fig. 4.
Fig. 6 is a cross-sectional view taken along section line A-A in fig. 5.
Fig. 7 is a schematic view of the structure of fig. 5 with a hearing aid.
Fig. 8 is a perspective view of a wearable device according to one embodiment of the utility model, where the wearable electronic device includes a wristband.
Fig. 9 is a block diagram of a wearable device according to an embodiment of the utility model.
Fig. 10 is a schematic cross-sectional view of a wearable device according to an embodiment of the present utility model when a receiving sleeve is provided.
Fig. 11 is a schematic view of a hearing aid according to an embodiment of the present utility model coupled to a housing sleeve.
Fig. 12 is an enlarged view of the section I in fig. 10.
Fig. 13 is a perspective view of a snap switch according to one embodiment of the present utility model, the snap switch being shown in a locked position.
Fig. 14 is a perspective view of a snap switch according to one embodiment of the present utility model, the snap switch being shown in a locked position.
Fig. 15 is an exploded view of a housing assembly in accordance with one embodiment of the present utility model.
Fig. 16 is a sectional view taken along section line B-B of fig. 10.
Fig. 17 is a schematic view illustrating the positions of the inner housing and the flexible circuit board according to an embodiment of the utility model.
Fig. 18 is a schematic diagram of connection between a main circuit board and a flexible circuit board according to an embodiment of the present utility model.
Detailed Description
In order to make the above objects, features and advantages of the present application more comprehensible, embodiments accompanied with figures are described in detail below. It is to be understood that the specific embodiments described herein are for purposes of illustration only and are not limiting. It should be further noted that, for convenience of description, only some, but not all of the structures related to the present application are shown in the drawings. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present disclosure.
The terms "comprising" and "having" and any variations thereof herein are intended to cover a non-exclusive inclusion. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those listed steps or elements but may include other steps or elements not listed or inherent to such process, method, article, or apparatus.
Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment may be included in at least one embodiment of the present application. The appearances of such phrases in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. Those of skill in the art will explicitly and implicitly appreciate that the embodiments described herein may be combined with other embodiments.
As shown in fig. 1 to 16, the present utility model proposes a wearable device that can be worn on a human body, including a hearing aid 1 and a wearable electronic device.
As shown in fig. 2 and 3, the hearing aid 1 may be, for example, a hearing aid or an appliance with hearing aid function, and includes a housing 10, a first charging assembly and a first battery 12 electrically connected to the first charging assembly, where the first charging assembly and the first battery 12 are both located in the housing 10, and the first charging assembly is at least partially exposed to the housing 10 so as to be docked with an external charging device.
The wearable electronic device comprises a housing component 2, a second charging component and a second battery 5.
As shown in fig. 4 to 7, the housing assembly 2 is provided with a housing compartment 20 having one end communicating with the outside, and the hearing aid 1 is removably provided in the housing compartment 20, and fig. 7 shows a state in which the hearing aid 1 is placed in the housing compartment 20. The housing assembly 2 is arranged to be worn on the human body, for example on the wrist, arm, neck, head, waist or legs etc. Preferably, the housing assembly 2 is configured to be worn on the wrist of a person, as shown in fig. 8, and includes a wristband 29 to facilitate the wearing of the housing assembly 2 on the wrist. Thus, when the hearing aid 1 is accommodated in the accommodating bin 20, the hearing aid can be conveniently carried along with the shell assembly 2, and when the hearing aid is required to be used, the hearing aid can also be conveniently taken out of the shell assembly 2.
The second charging assembly is connected to the housing assembly 2 and at least partially located in the receiving compartment 20, and when the hearing aid 1 is located in the receiving compartment 20, the first charging assembly and the second charging assembly cooperate to charge the first battery 12. When the charging is performed, the first charging assembly and the second charging assembly are electrically connected, for example, the electric conduction can be realized through direct contact of the conductors, and the electric connection can also be realized through a wireless induction mode at a certain distance. The second charging assembly is electrically connected to the second battery 5, and the first battery 12 of the hearing aid 1 can be charged with the electric power of the second battery 5. When the hearing aid 1 is located in the accommodating bin 20, the second battery 5 charges the first battery 12, that is, the hearing aid 1 is more convenient to charge, and can move along with a human body while keeping charging, so that the hearing aid 1 does not need to be charged in a certain fixed place, and is not easy to influence use due to forgetting to charge, and in addition, the problem of forgetting to carry the hearing aid 1 is not easy to occur because the housing assembly 2 is worn on the human body, and the hearing aid 1 can be taken out and used in time when needed.
In some embodiments, as shown in fig. 2 and 3, the first charging assembly includes a first conductive pin 11 partially exposed from the housing 10, and it should be noted that the first conductive pin 11 does not have to protrude from the housing 10, and only needs to be able to access the first conductive pin 11 from the outside. As shown in fig. 4 and 5, the second charging assembly includes a second conductive pin 40 partially exposed in the housing 20, and when the hearing aid 1 is located in the housing 20, referring to fig. 7, the second conductive pin 40 abuts against the first conductive pin 11 to achieve electrical conduction, so that the power of the second battery 5 can be transferred to the first battery 12 through the second conductive pin 40 and the first conductive pin 11 to charge the first battery 12. Preferably, the first conductive pin 11 is recessed inside the housing 10, the second conductive pin 40 protrudes into the accommodating bin 20, and the second conductive pin 40 can be inserted into the housing 10 to abut against the first conductive pin 11, and meanwhile, the wearing and use of the hearing aid 1 are not affected.
As a preferred embodiment, the first conductive PIN 11 and the second conductive PIN 40 are spring PIN PINs, or at least one of them is a spring PIN.
The first conductive pins 11 and the second conductive pins 40 are the same in number and correspond in position. In some embodiments, the second charging assembly includes two second conductive pins 40, one of the second conductive pins 40 is configured to provide a charging voltage, and the other second conductive pin 40 is grounded, such that a charging voltage difference is formed between the two second conductive pins 40. Preferably, when the hearing aid 1 receives a charging signal, it automatically remains in a powered off state to increase the charging efficiency.
As a preferred embodiment, as shown in fig. 4 and 5, the second charging assembly includes three second conductive pins 40, and includes one second conductive pin 40 for detecting whether the hearing aid 1 is in place, in addition to the two second conductive pins 40, the second conductive pin 40 being electrically connected to the main control circuit board 270 of the wearable electronic device, and switching from low level to high level (or from high level to low level) when it is in contact with the first conductive pin 11 of the hearing aid 1, and by detecting a change in the high-low level signal on the second conductive pin 40, a determination of the placement and detection of the hearing aid 1 can be made. Preferably, when it is detected that the hearing aid 1 is not put in, the second conductive pin 40 for supplying the charging voltage is disconnected from the second battery 5 to prevent external foreign objects from entering to cause a short circuit, and when it is detected that the hearing aid 1 is put in, the second conductive pin 40 for supplying the charging voltage is conducted with the second battery 5 to charge the hearing aid 1. Preferably, three second conductive pins 40 are arranged in a certain direction and parallel to each other, and the second conductive pin 40 for detecting whether the hearing aid 1 is put in place is located between the other two second conductive pins 40. In the embodiment shown in fig. 4 and 5, three second conductive pins 40 are each disposed horizontally and aligned in the vertical direction (i.e., the thickness direction Z of the housing assembly 2).
It will be appreciated that the first battery 12 may be charged by wireless charging in addition to charging by direct contact of the first conductive pin 11 and the second conductive pin 40. In some embodiments, the second charging assembly includes a wireless charging transmitting end, the first charging assembly includes a wireless charging receiving end, and when the hearing aid 1 is located in the housing bin 20, the wireless charging transmitting end and the wireless charging receiving end are attached or close together, and the two are matched to charge the first battery 12 in a wireless charging manner. The wireless charging technology belongs to the prior art, for example, the wireless charging transmitting terminal may include a frequency converter and a power output coil, the direct current of the second battery 5 is converted into alternating current by the frequency converter and is output to the power output coil, the wireless charging receiving terminal includes a power receiving coil and a rectifying circuit, the power receiving coil can generate an induced current according to a changed electromagnetic field generated by the power output coil, and the rectifying circuit converts the induced current into direct current to charge the first battery 12.
The hearing aid 1 and the wearable device are wirelessly connected, specifically, as shown in fig. 3 and 9, the hearing aid 1 includes a first wireless communication module 14, a circuit board 15 and a microphone 16 disposed in the housing 10, the first wireless communication module 14, the microphone 16 and the first battery 12 are all electrically connected with the circuit board 15, the wearable electronic device includes a main control circuit board 270 and a second wireless communication module 271, and the first wireless communication module 14 and the second wireless communication module 271 are communicatively connected. In this way, the hearing aid 1 may exchange data with the main control circuit board 270, for example, may play an audio file sent through the main control circuit board 270 (the audio file may be stored in a storage module on the main control circuit board 270 or obtained by the main control circuit board 270 through a network or detected by a sensor of a wearable device in real time), or, for example, when the main control circuit board 270 has a call function, may also communicate with an external mobile phone, a smart watch or other communication devices through the main control circuit board 270. The microphone 16 is used for picking up a voice signal of a user so as to facilitate a call, and a voice command can be given to the main control circuit board 270 through the voice signal picked up by the microphone 16. The first wireless communication module 14 and the second wireless communication module 271 are preferably bluetooth modules.
The placement of the hearing aid 1 within the housing assembly 2 may vary. Referring to fig. 5, the housing assembly 2 has a bottom surface 240 that contacts the wrist when worn, a top surface 280 that faces away from the wrist, and an outer peripheral surface 241 that is located between the bottom surface 240 and the top surface 280. In some embodiments, the receiving compartment 20 is disposed on the top surface 280 such that the hearing aid 1 is plugged into the housing assembly 2 from the top of the housing assembly 2. In other embodiments, the receiving compartment 20 is provided on the outer circumferential surface 241 and the hearing aid 1 is plugged into the housing assembly 2 from the side of the housing assembly 2. It will be appreciated that the housing compartment 20 is preferably formed in the outer peripheral surface 241 of the housing assembly 2 facing away from the wristband 29.
In some embodiments, the number of hearing aids 1 is one. In other embodiments, the number of hearing aids 1 is two, so that both ears can use the hearing aid 1 for more comfortable wear. When the number of the hearing aids 1 is two, the housing assembly 2 is provided with two accommodating chambers 20, and one hearing aid 1 is accommodated in each accommodating chamber 20. The two accommodating chambers 20 may be disposed on the top surface 280 of the housing assembly 2, or one accommodating chamber 20 may be disposed on the top surface 280 of the housing assembly 2, and the other accommodating chamber 20 may be disposed on the outer circumferential surface 241 of the housing assembly 2, or may be disposed on the outer circumferential surface 241 of the housing assembly 2, for example, on the same side or opposite sides of the outer circumferential surface 241, and preferably, the two accommodating chambers 20 disposed on opposite sides of the outer circumferential surface 241 are symmetrically disposed, so that the two hearing aids 1 may be simultaneously pressed to pop up, which is more convenient to operate.
As shown in fig. 6, in the embodiment shown in fig. 6, two storage bins 20 are respectively disposed on opposite sides of the outer peripheral surface 241, and are symmetrically disposed. The two receiving compartments 20 are in communication, which makes the arrangement of the two hearing aids 1 in the housing assembly 2 more compact, thereby saving space of the housing assembly 2 in the length direction X. In other embodiments, the two receptacles 20 may be non-communicating, such as by a panel wall or other component isolation arrangement.
As shown in fig. 2 and 3, the hearing aid 1 comprises a head 13, the head 13 being intended to be inserted into the auditory canal of a person, the head 13 typically being a flexible earcap for comfort in the ear. The housing 10 has a laterally convex structure with respect to the head 13, which is laterally convex in a direction perpendicular to the axis 13a of the head 13, and the projection of the first conductive pin 11 along the axis 13a of the head 13 is located outside the head 13. The receiving compartment 20 comprises a first portion 200 for receiving the head 13 and a second portion 201 for receiving the housing 10, the first portion 200 having a smaller cross-sectional dimension than the second portion 201, such that the hearing aid 1 can be restrained by the inner wall of the second portion 201. The second conductive pin 40 is exposed out of the second portion 201, and the first conductive pin 11 and the second conductive pin 40 are both disposed along the axis 13a of the head 13, so that the second conductive pin 40 can avoid the contact between the head 13 and the first conductive pin 11 conveniently when the hearing aid 1 is plugged into the accommodating bin 20 along the axis 13a of the head 13, and the contact reliability is easier to ensure. As a preferred embodiment, the axial direction of the head 13 coincides with the longitudinal direction X of the housing assembly 2.
In some embodiments, as shown in fig. 10, the wearable electronic device further includes a housing sleeve 6 disposed within the housing compartment 20, the housing sleeve 6 being slidably coupled with the housing assembly 2. The housing sleeve 6 is movable along the insertion direction of the hearing aid 1, as shown in fig. 11, the housing sleeve 6 comprises a laterally protruding guide 62, the guide 62 extending along the insertion direction, further referring to fig. 4 and 5, a guide hole 220 communicating with the housing compartment 20 is provided inside the housing assembly 2, the guide hole 220 being adapted to the shape of the guide 62 for guiding the movement of the housing sleeve 6 along a straight line. In the embodiment shown in fig. 11, the guide 62 includes a plate portion 620 and a column portion 621 connected to the outside of the plate portion 620, and the diameter of the column portion 621 is greater than the thickness of the plate portion 620 to prevent the guide 62 from being separated from the guide hole 220. The hearing aid 1 is partially positioned in the housing 6, and when the hearing aid 1 is inserted into the housing 6, the position is limited, deflection and inclination are not easy to occur, so that better position accuracy can be maintained. As shown in fig. 10 to 12, the accommodating sleeve 6 is provided with a avoiding hole 60 through which the second conductive needle 40 passes, and when the hearing aid 1 is positioned in the accommodating sleeve 6, the avoiding hole 60 corresponds to the position of the first conductive needle 11 at the same time, so that the first conductive needle 11 and the second conductive needle 40 can reliably abut. When the hearing aid 1 is plugged into the housing sleeve 6, the hearing aid 1 can be reliably guided by the housing sleeve 6 to enter the housing bin 20 along the plugging direction, so that the position of the hearing aid 1 is more accurate.
As shown in fig. 6, in order to prevent the housing sleeve 6 from being separated from the housing compartment 20, the housing assembly 2 is formed with a flange 25 extending into the housing compartment 20, at least a portion of the flange 25 being located on the path of movement of the housing sleeve 6 to define the housing sleeve 6 within the housing compartment 20. Preferably, the flange 25 is located at the open end of the housing 20 and is adapted to the contour of the housing 10, so that when the hearing aid 1 is housed in the housing 20, the housing 10 is substantially fitted to the flange 25, and the sealing performance is better.
Referring to fig. 2, 3 and 10, in order to further improve the accuracy of the position between the receiving sleeve 6 and the hearing aid 1, the head 13 of the hearing aid 1 is provided with a recess 130, the receiving sleeve 6 includes a positioning boss 61 adapted to the recess 130, and when the hearing aid 1 is inserted into the receiving sleeve 6, the positioning boss 61 is inserted into the recess 130, so that the position of the hearing aid 1 is reliably defined, and can be inserted into the receiving chamber 20 along with the insertion direction of the receiving sleeve 6.
It will be appreciated that the position of the hearing aid 1 in the receiving compartment 20 may be maintained, for example, by elastic or frictional forces between the housing 1 and the shell assembly 2, thereby preventing the hearing aid 1 from being too easily detached from the shell assembly 2, or that locking and unlocking means may be provided for locking and unlocking the hearing aid 1, the position of which is fixed and cannot be removed when the hearing aid 1 is fixed in the shell assembly 2 by the locking means. After the unlocking mechanism is unlocked, the hearing aid 1 can be taken out from the housing compartment 20.
In some embodiments, the hearing aid 1 is automatically ejected when unlocked such that the tail of its housing 10 is located outside the housing assembly 2. Since the receiving sleeve 6 encloses the head 13 of the hearing aid 1 and a portion of the housing 10, and does not enclose the tail of the housing 10 (opposite end from the head 13), a finger can easily grip the tail of the hearing aid 1 to remove the hearing aid 1 when the tail of the hearing aid 1 is exposed to the housing assembly 2.
As shown in fig. 10, as a preferred embodiment, the wearable electronic device comprises a snap switch 64 connected to the housing assembly 2, the snap switch 64 comprising a locking member 63, the locking member 63 having a locked position for securing the hearing aid 1 and an unlocked position for releasing the hearing aid 1, the locking member 63 being closer to the opening of the receiving compartment 20 than in the locked position in the unlocked position, such that the hearing aid 1 is partly ejected to the outside of the housing assembly 2. Fig. 13 and 14 show schematic views of the locking member 63 in the locked position and the unlocked position, respectively, when the locking member 63 is in the unlocked position (refer to fig. 14), depressing the locking member 63 will retract a certain distance, deflect inward and switch to the locked position (refer to fig. 13), depressing the locking member 63 again, and after the pressing force is lost, the locking member 63 will be ejected and deflected outward by an elastic member (not shown) in the snap switch 64, thereby switching to the unlocked position (refer to fig. 14). The locking member 63 is depressed by pushing the hearing aid 1, thereby locking the hearing aid 1 by the locking member 63 or unlocking the hearing aid 1. The particular locking and unlocking structure of the snap switch 64 is conventional and will not be described in detail herein.
As shown in fig. 12, the locking member 63 includes a first hook 630 and a second hook 631 that are disposed at intervals, the first hook 630 abuts against the outer surface of the accommodating sleeve 6, the housing 10 is provided with a slot 100, and the second hook 631 can be locked into the slot 100. When the hearing aid 1 is pushed inwards, the hearing aid 1 drives the accommodating sleeve 6 to move, the accommodating sleeve 6 presses the first clamping hook 630 to switch the locking piece 63 to the locking position, and in the action process, the second clamping hook 631 deflects towards the side where the hearing aid 1 is located and is clamped into the clamping groove 100, so that the position of the hearing aid 1 is limited. When the hearing aid 1 is pushed inwards again, the accommodating sleeve 6 presses down the locking piece 63, after the hearing aid 1 loses the pressing force, the locking piece 63 pushes the accommodating sleeve 6 and the hearing aid 1 to pop out under the action of the elastic piece, the locking piece is switched to the unlocking position, in the action process, the second clamping hook 631 deflects outwards and is separated from the clamping groove 100, and at the moment, the tail part of the hearing aid 1 is positioned outside the shell assembly 2, so that the hearing aid can be taken out conveniently.
It should be understood that the housing 6 is not necessary, and the housing 6 may not be disposed in the housing 20, and the locking member 63 may be directly driven by the hearing aid 1 to switch positions.
As shown in fig. 15 and 16, in some embodiments, the outer case assembly 2 includes an inner case 22 and an upper case 23 and a lower case 24 that fit around the inner case 22 from both sides, specifically, the upper case 23 and the lower case 24 fit around the inner case 22 from both upper and lower sides, and form two outwardly protruding wristband connecting portions 290 at both ends in the width direction Y of the outer case assembly 2, and the wristband 29 is connected to the wristband connecting portions 290. By arranging the housing assembly 2 in such a manner that it is connected by a plurality of housings, it is possible to conveniently form a receiving space between the housings, thereby placing components therein.
As shown in fig. 16, the upper and lower housings 23 and 24 cooperate to form a side chamber 50 located on the side of the inner housing 22, the side chamber 50 being located within the wristband attachment part 290 to make full use of the space of the wristband 29. The second battery 5 is accommodated in the side chamber 50 and is covered with the upper case 23, the lower case 24 and the wristband 29, thereby providing a better protection effect for the second battery 5. It will be appreciated that the provision of the second battery 5 outside the inner housing 22 reduces the space occupation within the inner housing 22, facilitating the assembly and arrangement of the components within the inner housing 22.
As shown in fig. 6, the first portion 200 of the accommodating bin 20 and the snap switch 64 are respectively located at two sides of the second conductive pin 40, the second battery 5 and the first portion 200 of the accommodating bin 20 are respectively located at two sides of the snap switch 64 and the second conductive pin 40, so that the space in the accommodating bin 20 can be more reasonably utilized, the preferred second conductive pins 40 are horizontally arranged, and the second conductive pins 40 are vertically arranged, so that the space in the width direction Y is more compact. The second charging assembly further includes a sub-circuit board 41 fixedly connected with the inner housing 22, the sub-circuit board 41 being vertically disposed and extending toward the side chamber 50 so as to be conveniently connected with a main control circuit board 270 of the wearable device. The second conductive pin 40 is disposed perpendicular to the sub-circuit board 41 and abuts against the sub-circuit board 41 to realize electrical connection. In the case of two hearing aids 1, two sets of second conductive pins 40 are correspondingly arranged, the two sets of second conductive pins 40 are symmetrically arranged and are abutted against two opposite sides of the sub-circuit board 41, and the two sets of second conductive pins 40 share one sub-circuit board 41, so that the structure is more compact.
Obviously, a side chamber 50 may be formed on both sides of the inner housing 22 and accommodate two second batteries 5, thereby further improving the cruising ability of the wearable device.
As shown in fig. 16, in some embodiments, the lower housing 24 and the inner housing 22 cooperate to form a lower chamber 26 at the lower end. The wearable electronic device further includes a photosensor 260, a vibration motor 261, and a charging unit 262 provided in the lower chamber 26. The photoelectric sensor 260 and the charging unit 262 are partially exposed to the bottom surface 240 of the lower case 24. The photoelectric sensor 260 is, for example, a heart rate sensor, which is attached to the wrist skin to detect heart rate parameters of a human body, and the charging unit 262 includes an exposed PIN for interfacing with a PIN of an external charging device to charge the second battery 5, and the charging unit 262 may further include a magnet to magnetically connect with a charger. As shown in fig. 17, the vibration motor 261 is fixedly connected with the bottom of the inner housing 22, and is located above the charging unit 262, and can generate vibration, thereby giving vibration feedback to the user. The photoelectric sensor 260, the second battery 5, the charging unit 262, and the vibration motor 261 are all electrically connected with the main control circuit board 270.
It is understood that the charging unit 262 may also be charged by wireless charging.
As shown in fig. 16, the upper housing 23 and the inner housing 22 cooperate to form an upper chamber 27 at the upper end, and the wearable electronic device further includes a display device 3 and a flexible circuit board 7, and the display device 3 and the main control circuit board 270 are electrically connected and located in the upper chamber 27. The display device 3 preferably comprises a touch-sensitive display screen, by means of which the wearable electronic device can be manipulated. The display device 3 is capable of displaying various information, such as time, heart rate data detected by the photoelectric sensor 260, power data of the battery (including the first battery 12 and the second battery 5), audio storage data, etc., it will be appreciated that these data may also be transmitted wirelessly to the hearing aid 1 for playback to the human ear via the hearing aid 1. The housing assembly 2 further includes a protective case 30 coupled to the upper case 23, the protective case 30 closing the upper end of the upper chamber 27, at least a portion thereof opposite to the display device 3 being made of a transparent material, for example, glass or plastic, so that a user can observe the contents displayed by the display device 3 from the outside. Obviously, the display device 3 is disposed above the main control circuit board 270.
The flexible circuit board 7 extends from the upper chamber 27 to the lower chamber 26 through the side chamber 50, and is electrically connected to the second battery 5 and electrical components (e.g., the photoelectric sensor 260, the vibration motor 261, and the charging unit 262) located in the lower chamber 26. As shown in fig. 18, the flexible circuit board 7 includes a first end 70 extending laterally from the side chamber 50 into the inner case 22, and a second end 71 and a third end 72 each extending from the side chamber 50 into the lower chamber 50, wherein the first end 70 is connected to the sub-circuit board 41, the second end 71 is connected to the photoelectric sensor 260 and the charging unit 262, and the third end 72 is connected to the second battery 5 and the vibration motor 261. By providing the flexible circuit board 7 with a plurality of prongs, electrical connection of the electrical components to the main control circuit board 270 located in the upper chamber 27 can be conveniently accomplished.
The wearable electronic equipment fully utilizes the space in the shell component 2 through reasonable structural design, arrangement of components and parts and use of the flexible circuit board, so that the shell component 2 still maintains a small volume after the hearing aid 1 is arranged. The wearable electronic device can play the function of an intelligent watch, and simultaneously can realize the functions of audio playing, talking and the like by utilizing the hearing aid 1 in the wearable electronic device. The hearing aid 1 can be taken and put by pressing the hearing aid 1, and the operation is more convenient.
The foregoing is merely exemplary of the utility model and other modifications can be made without departing from the scope of the utility model.

Claims (16)

1. A wearable device, comprising: a hearing aid (1) and a wearable electronic device;
the hearing aid (1) comprises a housing (10), a first charging assembly and a first battery (12) electrically connected to the first charging assembly;
the wearable electronic device is suitable for wearing on a human body, comprising:
a housing assembly (2) provided with a containing bin (20) with one end communicated with the outside, wherein the hearing aid (1) is arranged in the containing bin (20) in a removable way;
the second charging assembly is connected with the shell assembly (2) and is at least partially positioned in the accommodating bin (20), and when the hearing aid (1) is positioned in the accommodating bin (20), the first charging assembly and the second charging assembly are matched to charge the first battery (12); the method comprises the steps of,
and a second battery (5) electrically connected with the second charging assembly.
2. The wearable device of claim 1, wherein the first charging assembly comprises a first conductive pin (11) partially exposed to the housing (10), the second charging assembly comprises a second conductive pin (40) exposed to the housing (20), and the second conductive pin (40) abuts the first conductive pin (11) when the hearing aid (1) is positioned in the housing (20).
3. The wearable device of claim 1, wherein the second charging assembly comprises two second conductive pins (40), wherein one of the second conductive pins (40) is for providing a charging voltage and the other second conductive pin (40) is grounded; or,
the second charging assembly comprises three second conductive pins (40), wherein one second conductive pin (40) is used for providing charging voltage, one second conductive pin (40) is grounded, and one second conductive pin (40) is used for detecting whether the hearing aid (1) is placed in place.
4. The wearable device according to claim 1, characterized in that the housing assembly (2) comprises a wristband (29) for wearing on the wrist, the housing assembly (2) having a bottom face (240) for contacting the wrist when worn, a top face (280) facing away from the wrist, and an outer circumferential face (241) between the bottom face (240) and the top face (280), the housing (20) being open on the top face (280) or the outer circumferential face (241).
5. The wearable device according to claim 4, characterized in that the housing assembly (2) is provided with two receiving compartments (20), each receiving one of the hearing aids (1) in a receiving compartment (20);
the two accommodating bins (20) are arranged on the top surface (280) of the shell assembly (2); or,
one of the two accommodating chambers (20) is arranged on the top surface (280) of the shell assembly (2), and the other accommodating chamber is arranged on the outer peripheral surface (241) of the shell assembly (2); or,
the two accommodating chambers (20) are arranged on the same side of the outer peripheral surface (241) of the shell assembly (2); or,
the two accommodating chambers (20) are respectively arranged on two opposite sides of the outer peripheral surface (241) of the shell assembly (2).
6. The wearable device according to claim 4, wherein the housing assembly (2) is provided with two accommodating chambers (20), each accommodating chamber (20) accommodates one hearing aid (1), the two accommodating chambers (20) are provided on opposite sides of the outer peripheral surface and are symmetrically arranged, and the two accommodating chambers (20) are arranged in an isolated manner or the two accommodating chambers (20) are communicated.
7. The wearable device of claim 1, wherein the second charging assembly comprises a wireless charging transmitting end, and the first charging assembly comprises a wireless charging receiving end, and the wireless charging transmitting end and the wireless charging receiving end cooperate to charge the first battery (12) by wireless charging when the hearing aid (1) is located in the housing compartment (20).
8. The wearable device of any of claims 1 to 7, characterized in that the hearing aid (1) comprises a first wireless communication module (14), the wearable electronic device comprises a second wireless communication module (271), the first wireless communication module (14) and the second wireless communication module (271) being communicatively connected.
9. The wearable device of any of claim 1 to 6,
the hearing aid (1) comprises a head (13) arranged at one end of the shell (10), the shell (10) protrudes outwards relative to the head (13), the first charging assembly comprises a first conductive needle (11), and the projection of the first conductive needle (11) along the axial direction of the head (13) is positioned outside the head (13);
the accommodating bin (20) comprises a first part (200) for accommodating the head part (13) and a second part (201) for accommodating the shell (10), the second charging assembly comprises a second conductive pin (40), and the second conductive pin (40) is exposed out of the second part (201);
the first conductive needle (11) and the second conductive needle (40) are arranged along the axial direction of the head (13), and the hearing aid (1) is plugged into the accommodating bin (20) along the axial direction of the first conductive needle (11) and the second conductive needle (40).
10. The wearable device of claim 9, further comprising a receiving sleeve (6) slidably coupled in the receiving compartment (20), the hearing aid (1) being partially located in the receiving sleeve (6), the receiving sleeve (6) being provided with a receiving hole (60) through which the second conductive needle (40) passes, the head (13) being provided with a recess (130), the receiving sleeve (6) comprising a positioning boss (61) adapted to the recess (130).
11. The wearable device according to claim 10, characterized in that the housing assembly (2) is formed with a flange (25) extending into the housing compartment (20) to define the housing sleeve (6) within the housing compartment (20), the flange (25) being located at an open end of the housing compartment (20) and fitting the contour of the housing (10).
12. The wearable device of claim 10, characterized in that the wearable electronic device further comprises a snap switch (64) connected to the housing assembly (2), the snap switch (64) comprising a locked position securing the hearing aid (1) and an unlocked position releasing the hearing aid (1), the hearing aid (1) being ejected to be partly outside the housing assembly (2) when the snap switch (64) is in the unlocked position.
13. The wearable device according to claim 12, characterized in that the outer housing assembly (2) comprises an inner housing (22) and an upper housing (23) and a lower housing (24) which cover the inner housing (22) in a matching manner from two sides, the upper housing (23) and the lower housing (24) are matched to form a side chamber (50) located on the side surface of the inner housing (22), the second battery (5) is contained in the side chamber (50), and the second battery (5) and the containing bin (20) are respectively located on two sides of the second charging assembly and the snap switch (64).
14. The wearable device of claim 13, wherein a lower chamber (26) located at a lower end is formed by cooperation between the lower housing (24) and the inner housing (22), the wearable device further comprising a photoelectric sensor (260), a vibration motor (261) and a charging unit (262) disposed in the lower chamber (26), the photoelectric sensor (260) and the charging unit (262) being partially exposed at a bottom surface (240) of the lower housing (24), and the vibration motor (261) being located above the charging unit (262).
15. The wearable device according to claim 14, characterized in that an upper chamber (27) located at the upper end is formed by cooperation between the upper housing (23) and the inner housing (22), the wearable device further comprises a display device (3), a main control circuit board (270) and a flexible circuit board (7) electrically connected with the main control circuit board (270), the display device (3) and the main control circuit board (270) are located in the upper chamber (27), and the flexible circuit board (7) extends from the upper chamber (27) to the lower chamber (26) after passing through the side chamber (50) and is electrically connected with the second battery (5) and electrical components in the lower chamber (26).
16. The wearable device according to claim 15, characterized in that the second charging assembly comprises a sub-circuit board (41) fixedly connected with the inner housing (22) and at least two second conductive pins (40), the second conductive pins (40) are horizontally arranged, the ends of the second conductive pins (40) are abutted with the sub-circuit board (41), the second conductive pins (40) are arranged along the vertical direction, and the sub-circuit board (41) is electrically connected with the second conductive pins (40) and the flexible circuit board (7).
CN202321899375.7U 2023-07-18 2023-07-18 Wearable device Active CN220307384U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202321899375.7U CN220307384U (en) 2023-07-18 2023-07-18 Wearable device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202321899375.7U CN220307384U (en) 2023-07-18 2023-07-18 Wearable device

Publications (1)

Publication Number Publication Date
CN220307384U true CN220307384U (en) 2024-01-05

Family

ID=89351462

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202321899375.7U Active CN220307384U (en) 2023-07-18 2023-07-18 Wearable device

Country Status (1)

Country Link
CN (1) CN220307384U (en)

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