CN209882039U - Earphone assembly - Google Patents

Abstract

The utility model relates to an earphone component, which comprises a head-wearing earphone and an in-ear earphone; the headset is provided with a left ear main body and a right ear main body and comprises a first wireless charging module, a first battery and a first charging chip, a transmitting coil connected with the first wireless charging module is arranged in each of the left ear main body and the right ear main body, and the in-ear headset comprises a left earplug and a right earplug; a receiving coil, a second wireless charging module connected with the receiving coil, a second battery and a second charging chip connected with the second battery and the second wireless charging module are arranged in each of the left earplug and the right earplug; an accommodation groove is formed on each of the left ear body and the right ear body, and when the left earplug and the right earplug are placed in the corresponding accommodation grooves, the transmitting coil outputs electric energy and is received by the receiving coil. The utility model discloses be convenient for the user switches to use in-ear earphone and headphone, avoids carrying supporting charging box, improves portability and user experience.

Description

Earphone assembly

Technical Field

The utility model belongs to the technical field of the earphone, concretely relates to hold earphone subassembly that electric energy in to headphone and utilized headphone charges for earphone with earphone.

Background

In the market, earphones are various in forms, such as headsets, in-ear earphones and the like, the in-ear earphones are small and convenient to carry, but have poor sound sealing performance and are easy to lose, and a separate charging box is required to be equipped for charging when charging; the headphone is uniformly preferred by users because of its excellent sound quality and small sound leakage, for example, when the user wants to listen to music quietly. Since the in-ear headphones and the headphones are used in different environments, for example, ambient sounds may not be heard when the headphones are worn on a road (e.g., car whistling, conversation between friends, etc.), it is desirable to wear the in-ear headphones, but in a quiet environment, the user again desires to wear the headphones so as to be well immersed in music.

Among the prior art, only solitary headphone and in-ear earphone, wherein the in-ear earphone still need carry the box that charges alone for the user need carry simultaneously when switching to use headphone and in-ear earphone, reduces user experience.

SUMMERY OF THE UTILITY MODEL

The utility model provides an earphone assembly for solve the trouble that switches headphone and in-ear earphone brought among the prior art, accomodate in-ear earphone to the headphone and for in-ear earphone power supply through headphone's electric energy, the user of being convenient for switches and uses in-ear earphone and headphone, avoids carrying supporting charging box, improves portability and user experience.

In order to solve the technical problem, the utility model provides a following technical scheme solves:

an earphone assembly comprising a headset and an in-ear earphone; the headset is provided with a left ear main body and a right ear main body and comprises a first wireless charging module, a first battery connected with the first wireless charging module and a first charging chip connected with the first battery and the first wireless charging module, a transmitting coil connected with the first wireless charging module is arranged in each of the left ear main body and the right ear main body, and the in-ear headset comprises a left earplug and a right earplug; a receiving coil, a second wireless charging module connected with the receiving coil, a second battery and a second charging chip connected with the second battery and the second wireless charging module are arranged in each of the left earplug and the right earplug; an accommodation groove is formed in each of the left and right ear bodies, and when the left and right earplugs are placed in the corresponding accommodation grooves, the transmitting coil outputs electrical energy and is received by the receiving coil.

In order to reliably accommodate the in-ear headphones, the accommodating grooves are respectively provided with magnets which are attracted to the left earplug and the right earplug.

As above mentioned earphone assembly, said magnet is a neodymium iron boron magnet.

As described above, at least a portion of the sound outlet surface of each of the left and right earplugs is made of metal.

In the earphone assembly, the accommodating grooves are respectively formed on the outer side surfaces of the corresponding left ear main body and the right ear main body.

As described above, the outer side surfaces of the left and right ear bodies are respectively provided with the end caps for covering the corresponding receiving grooves.

In the earphone assembly, the shape of each positioning groove is matched with the shape of the left earplug and the right earplug respectively.

The earphone assembly as described above, the headphone includes a master controller, the earphone assembly further includes a first detection device and a second detection device connected to the master controller, the first detection device is configured to detect whether the left earplug is accommodated in the accommodating slot of the left ear main body, the second detection device is configured to detect whether the right earplug is accommodated in the accommodating slot of the right ear main body, and when the first detection device and/or the second detection device receives a detection signal, the master controller controls the transmitting coil to output electric energy.

The earphone assembly as described above, wherein the first detection device is a first proximity switch disposed in the receiving slot on the left ear body, and the second detection device is a second proximity switch disposed in the receiving slot on the right ear body; when the first proximity switch and/or the second proximity switch receive signals, the main controller controls the transmitting coil to output electric energy.

The earphone assembly comprises a toggle switch, the toggle switch is connected with the master controller and used for toggling the toggle switch and outputting a feedback signal to the master controller when the left earplug and the right earplug are placed in the corresponding accommodating grooves, and the master controller controls the transmitting coil to output electric energy.

Compared with the prior art, the utility model discloses an advantage and beneficial effect are: the accommodating grooves are respectively formed in the left ear main body and the right ear main body of the headset, so that the in-ear headset and the headset can be conveniently accommodated together, the trouble caused by carrying the in-ear headset and the headset simultaneously is avoided, the small in-ear headset is prevented from being lost, and the in-ear headset is convenient to switch different headsets to use by carrying the in-ear headset simultaneously; through transmitting coil production electromagnetic induction in the headphone and produce the electric current in receiving coil to charge the module through the second is wireless and the second chip storage that charges in the second battery with this electric current, realize charging to the in-ear earphone, avoid carrying the box that charges of in-ear earphone, promote user experience.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the embodiments of the present invention or the description of the prior art will be briefly described below, and it is obvious that the drawings described below are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a block diagram of an embodiment of an earphone assembly according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

In order to improve portability and improve user experience, the embodiment relates to an earphone assembly including a headphone (not shown) and an in-ear earphone (not shown); the headphone is provided with a left ear body (not shown) and a right ear body (not shown), as shown in fig. 1, the headphone includes a first wireless charging module 1, a first battery 2 connected to the first wireless charging module 1, and a first charging chip 3 connected to the first battery 2 and the first wireless charging module 1, a transmitting coil 4 connected to the first wireless charging module 1 is provided in each of the left ear body and the right ear body, and the in-ear headphone includes a left ear plug and a right ear plug; a receiving coil 6, a second wireless charging module 7 connected with the receiving coil 6, a second battery 8 and a second charging chip 9 connected with the second battery 8 and the second wireless charging module 7 are arranged in each of the left earplug and the right earplug; an accommodation groove is formed in each of the left and right ear bodies, and the transmitting coil 4 outputs electric power and is received by the receiving coil 6 when the left and right earplugs are placed in the corresponding accommodation grooves.

In this embodiment, two earplugs of the in-ear headphone are correspondingly accommodated in a first accommodating groove formed in a left ear body of the headphone and a second accommodating groove formed in a right ear body of the headphone, for example, the left earplug is accommodated in the first accommodating groove, the right earplug is accommodated in the second accommodating groove, the left earplug can be in interference fit in the first accommodating groove, and the right earplug can be in interference fit in the second accommodating groove. At least a part of the sound face of a general in-ear earphone is made of metal, therefore in this embodiment, in order to facilitate the taking in of the in-ear earphone, be provided with the first magnet that adsorbs with the sound face of a play of left earplug in the first holding tank, and be provided with the second magnet that adsorbs with the sound face of a play of right earplug in the second holding tank, first magnet and second magnet can set up the bottom at first holding tank and second holding tank respectively, or can set up in the main body of left ear and the main body of right ear respectively, but should sense the magnetic field of first magnet and second magnet respectively when the left earplug is placed in first holding tank and the right earplug is placed in the second holding tank, the first magnet of this embodiment and second magnet can be neodymium iron boron magnet. When the in-ear headphone is not in use, placing the left earplug in the first receiving groove and placing the right earplug in the second receiving groove; when the in-ear earphone is switched to be used, the left earplug is taken out of the first accommodating groove, and the right earplug is taken out of the second accommodating groove to be taken out.

In order to conveniently wear the headset when accommodating the in-ear headset into the corresponding accommodating groove, the accommodating groove is formed in the outer side face of the corresponding left ear body and the outer side face of the corresponding right ear body, in order to improve the attractiveness, the shape of the positioning groove is matched with the shapes of the left earplug and the right earplug, so that the left earplug and the right earplug are not protruded out of the accommodating groove when being arranged in the accommodating groove, end covers (not shown) used for covering the corresponding accommodating groove can be respectively arranged on the outer side faces of the left ear body and the right ear body, the accommodating groove is sealed by the end covers after the in-ear headset is arranged in the corresponding accommodating groove or taken out of the corresponding accommodating groove, impurities in the external environment are prevented from entering, and the magnetic effect is influenced.

After the left earplug is placed in the first positioning groove and/or the right earplug is placed in the second positioning groove, the wireless charging function of the headphone for the in-ear headphone is activated, specifically, as shown in fig. 1, the left earplug is placed in the first positioning groove for charging, after the headphone senses that the left earplug is placed in the first positioning groove, the first battery 2 in the headphone supplies alternating current with a certain frequency to the transmitting coil 4 through the first wireless charging module 1, the transmitting coil 4 generates electromagnetic induction and is sensed by the receiving coil 6, a certain current is generated in the receiving coil 6, the current charges the second battery 8 through the second wireless charging module 7 and the second charging chip 9, and inconvenience caused by carrying a charging box matched with the in-ear headphone is avoided. The first wireless charging module 1 of the embodiment mainly comprises a rectifying circuit, a filter circuit and a high-frequency inverter circuit, wherein direct-current voltage output by the first battery 2 is rectified and stabilized through the rectifying circuit and the filter circuit, and is finally converted into high-frequency alternating current through the high-frequency inverter circuit, so as to drive the transmitting coil to generate electromagnetic induction; the second wireless charging module 7 of this embodiment mainly includes a rectifier circuit, a filter circuit, and a high-frequency inverter circuit, and the receiving coil 6 receives a high-frequency alternating current through the high-frequency inverter circuit, and rectifies and stabilizes voltage through the rectifier circuit and the filter circuit, and finally charges the second battery 8 through the second charging chip 9. The first battery 2 may be connected to an external power source through, for example, a USB port, and the first battery 2 may be charged through the first charging chip 3.

Taking the example of detecting that the left earplug is placed in the first positioning slot as an example, in the first embodiment, a first detection device is disposed in the first positioning slot, and the first detection device in this embodiment may be a first proximity switch disposed in the first positioning slot, when the left earplug is placed in the first positioning slot, the first proximity switch acts and outputs a first signal, the first signal is output to the main controller 5, and notifies the main controller 5 that the left earplug is currently placed in the first positioning slot, and at this time, the first battery 2 outputs electric energy through the transmitting coil 4. Of course, the first detecting device may employ other detecting elements, such as a photoelectric sensor, which can detect whether the left earplug is in the first positioning slot. Similarly, the second detection device has the same structure and operation principle as the first detection device, and is not described here. In a second embodiment, a toggle switch provided on the headset (e.g. the left ear body or the right ear body) may be used, and when the user places the left ear plug in the first positioning slot, the user may toggle the switch, for example, from off to on, at which point the master controller 5 receives a signal of the toggle switch, informing the master controller 5 that the left ear plug is currently placed in the first positioning slot, at which point the first battery 2 outputs electrical energy via the transmitting coil 4.

The in-ear earphone and the headset are combined, when the in-ear earphone is not used, the in-ear earphone is stored in the headset, so that the headset is convenient to carry, the in-ear earphone and the headset can be switched and used under different use environments, and the use experience of a user is improved; the in-ear earphone can realize wireless charging by utilizing the electric energy of the headset, avoids using a matched charging box and reduces the cost.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (10)

1. An earphone assembly comprising a headset and an in-ear earphone;

the headset is provided with a left ear main body and a right ear main body and comprises a first wireless charging module, a first battery connected with the first wireless charging module and a first charging chip connected with the first battery and the first wireless charging module, a transmitting coil connected with the first wireless charging module is arranged in each of the left ear main body and the right ear main body, and the in-ear headset comprises a left earplug and a right earplug;

a receiving coil, a second wireless charging module connected with the receiving coil, a second battery and a second charging chip connected with the second battery and the second wireless charging module are arranged in each of the left earplug and the right earplug;

an accommodation groove is formed in each of the left and right ear bodies, and when the left and right earplugs are placed in the corresponding accommodation grooves, the transmitting coil outputs electrical energy and is received by the receiving coil.

2. The earphone assembly of claim 1 wherein the receiving groove has magnets disposed therein for attracting the left and right earplugs, respectively.

3. The earphone assembly of claim 2 wherein the magnet is a neodymium iron boron magnet.

4. The earphone assembly of claim 2 or 3 wherein at least a portion of the sound exit face of each of the left and right earplugs is metallic.

5. The earphone assembly according to any of claims 1 to 3 wherein each receiving groove opens on an outer side surface of the corresponding left and right ear bodies, respectively.

6. The earphone assembly of claim 5 wherein end caps for covering the corresponding receiving grooves are further provided on the outer side surfaces of the left and right ear bodies, respectively.

7. The earphone assembly according to any of claims 1 to 3 wherein each receiving slot has a shape that is adapted to the shape of the left and right earplugs, respectively.

8. The earphone assembly according to any one of claims 1 to 3 wherein the headphone comprises a master controller, the earphone assembly further comprising a first detecting means and a second detecting means connected to the master controller, the first detecting means being configured to detect whether the left ear plug is received in the receiving slot in the left ear body, the second detecting means being configured to detect whether the right ear plug is received in the receiving slot in the right ear body, the master controller controlling the transmitting coil to output the electrical energy when the first detecting means and/or the second detecting means receive a detection signal.

9. The earphone assembly of claim 8 wherein the first detection means is a first proximity switch disposed in a receiving slot on the left ear body and the second detection means is a second proximity switch disposed in a receiving slot on the right ear body; when the first proximity switch and/or the second proximity switch receive signals, the main controller controls the transmitting coil to output electric energy.

10. The earphone assembly according to claim 8, wherein the earphone assembly comprises a toggle switch connected to the master controller for toggling the toggle switch and outputting a feedback signal to the master controller when the left and right earplugs are placed in the corresponding receiving slots, and the master controller controls the transmitting coil to output electric energy.