CN210670491U - Earphone assembly - Google Patents

Abstract

The utility model relates to an earphone component, which comprises a self-distribution power supply earphone and a standby power supply, wherein the self-distribution power supply earphone and the standby power supply can be positioned and matched and are connected in a magnetic attraction way; when the self-power-supply earphone is matched with the stand-by power supply in a positioning way and connected with the stand-by power supply in a magnetic attraction way, the stand-by power supply charges and transmits energy to the self-power-supply earphone. The user will wear from the distribution source earphone and on the ear, learn when the distribution source earphone electric quantity is not enough from the user, the user can be in the conversation, utilize from distribution source earphone and stand-by power supply's location fit and magnetism to inhale and be connected, disposes stand-by power supply on the distribution source earphone to make stand-by power supply to the energy transmission that charges from distribution source earphone. When the standby power supply is configured in the self-power-supply earphone, the self-power-supply earphone can avoid the problem that the call is forced to be interrupted because no power supply exists.

Description

Earphone assembly

Technical Field

The utility model relates to an earphone technical field especially relates to an earphone assembly.

Background

With the continuous development of the technology, the more the Bluetooth headset is made, the smaller the Bluetooth headset is. However, in the process of gradually reducing the Bluetooth earphone, the built-in power supply capacity of the Bluetooth earphone is limited, so that the power of the Bluetooth earphone is insufficient.

SUMMERY OF THE UTILITY MODEL

Based on this, the utility model discloses lie in overcoming prior art's defect, provide an earphone subassembly, solve the influence of electric energy to the earphone conversation.

An earphone assembly comprises a self-distribution power supply earphone and a standby power supply, wherein the self-distribution power supply earphone and the standby power supply can be matched in a positioning mode and are connected in a magnetic attraction mode; when the self-power-supply earphone is matched with the stand-by power supply in a positioning way and connected with the stand-by power supply in a magnetic attraction way, the stand-by power supply charges and transmits energy to the self-power-supply earphone.

Above-mentioned earphone subassembly, the user will be from distributing power supply earphone dress and ear on, learn when distributing power supply earphone electric quantity not enough from the user, the user can be in the conversation is gone on, utilize from distributing power supply earphone and stand-by power supply's location fit and magnetism to inhale and be connected, disposes stand-by power supply on from distributing power supply earphone to make stand-by power supply to the defeated ability of charging from distributing power supply earphone.

Compared with the power supply replaced by the power supply, the self-powered earphone can avoid the problem that the call is forcibly interrupted due to no power supply in the process of configuring the standby power supply to the self-powered earphone.

Compared with the common charging by clamping the standby power supply, the self-distribution power supply earphone is less interfered by external force in the process of configuring the standby power supply set on the self-distribution power supply earphone, so that the standby power supply can be configured on the self-distribution power supply earphone under the condition that the self-distribution power supply earphone is not detached from the ear, and the standby power supply can charge and transmit energy to the self-distribution power supply earphone; and then can avoid lifting the problem that the conversation breaks off because of the earphone of the self-distribution power supply.

In one embodiment, the self-powered headset includes a self-powered portion and a first conductor conductively coupled to the self-powered portion; the standby power supply comprises a power storage part and a second conductor in conductive connection with the power storage part; when the first conductor is electrically connected with the second conductor, the power storage part can charge the self-distribution power supply part. The efficiency of charging and energy transferring from the power storage part to the self-distribution power supply part is realized by the conductive connection of the first conductor and the second conductor, and the structure of the charging and energy transferring is simple.

In one embodiment, the first conductor or the second conductor is a copper column mounted in a manner of elastic expansion. In the magnetic connection process of the self-power-supply earphone and the standby power supply, the copper column installed in an elastic telescopic mode can avoid rigid contact of the first conductor and the second conductor, and therefore acting force between the first conductor and the second conductor is effectively reduced.

In one embodiment, the self-powered headset comprises a self-powered power section and a first charging coil conductively connected with the self-powered power section; the standby power supply comprises a power storage part and a second charging coil in conductive connection with the power storage part; when the first charging coil is matched with the second charging coil, the power storage part charges and transmits power to the self-distribution power supply part.

In one embodiment, the self-power-supply earphone is provided with a first magnetic attraction piece, and the standby power supply is provided with a second magnetic attraction piece which is in magnetic attraction fit with the first magnetic attraction piece; one of the first magnetic attraction piece and the second magnetic attraction piece is made of a magnet, and the other of the first magnetic attraction piece and the second magnetic attraction piece is made of a magnet or an iron piece attracted by the magnet.

In one embodiment, when the first magnetic attraction piece and the second magnetic attraction piece are both made of magnets, the self-powered headset and the standby power supply are magnetically attracted and positioned and matched through the first magnetic attraction piece and the second magnetic attraction piece. The first magnetic part and the second magnetic part are made of magnets, and can be positioned and attracted under the action of magnetic force.

In one embodiment, when one of the first magnetic attraction piece and the second magnetic attraction piece is made of an iron piece, one of the self-powered earphone and the standby power supply is provided with a positioning protrusion, and the other of the self-powered earphone and the standby power supply is provided with a positioning groove for installing the positioning protrusion; when the positioning bulge is arranged in the positioning groove, the self-power-supply earphone is matched with the standby power supply in a positioning way. The positioning protrusions and the positioning grooves can ensure the reliability of positioning matching of the self-power-supply earphone and the standby power supply.

In one embodiment, when one of the first magnetic attraction piece and the second magnetic attraction piece is made of an iron piece, the standby power supply is provided with a concave surface matched with the profile of the self-power-supply earphone, and when the concave surface is matched with the profile of the self-power-supply earphone, the self-power-supply earphone is matched with the standby power supply in a positioning mode.

In one embodiment, the self-powered headset is a communications headset.

In one embodiment, the communication headset is a bluetooth headset.

Drawings

Fig. 1 is a schematic structural diagram of an earphone assembly according to an embodiment;

fig. 2 is a schematic structural diagram of an earphone assembly according to an embodiment;

FIG. 3 is a schematic circuit diagram of an earphone assembly according to an embodiment;

fig. 4 is a schematic circuit diagram of an earphone assembly according to an embodiment.

Description of reference numerals: 100. from joining in marriage power supply earphone, 110, from joining in marriage power supply part, 120, first conductor, 130, first charging circuit, 140, earphone casing, 150, first charging coil, 160, first magnetism inhale the piece, 170, location arch, 200, stand-by power supply, 210, the electricity storage part, 220, second conductor, 230, second charging circuit, 240, power supply casing, 250, second charging coil, 260, second magnetism inhale the piece, 270, positioning groove.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. In contrast, when an element is referred to as being "directly on" another element, there are no intervening elements present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

General bluetooth headset is mostly wearing formula earphone, wears on the ear through the vocal part or the ear-hang of going into the ear more. In life, people use bluetooth headsets, mostly because of their convenience of wearing.

The worn Bluetooth headset is mostly in a standby or working state, and the power supply capacitance of the Bluetooth headset is limited; in the conversation process using the bluetooth headset, the bluetooth headset often has insufficient electric quantity.

For this reason, a charging or power supply replacement mode is generally adopted to provide the electric energy required by power consumption for the bluetooth headset.

When the mode that adopts to charge provides the electric energy for bluetooth headset, because bluetooth headset dresses on the ear through its vocal portion or ear-hang, the fixed effort that limits bluetooth headset of ear is limited, generally need to lift bluetooth headset off from the ear, installs stand-by power supply 200 on bluetooth headset again, so in order to accomplish charging to bluetooth headset. In the charging process, the bluetooth headset needs to be detached, the original communication process is interrupted, and the normal use of a user is affected.

When adopting the mode of changing the power to provide the electric energy for bluetooth headset, because the existence of original power, generally need to lift original power off from bluetooth headset, change stand-by power supply 200 to bluetooth headset again on. In the process of replacing the power source, the sound generating part can be in a state of no electric energy input in a short time due to the replacement of the original power source and the standby power source 200, so that the original conversation process can be interrupted, and the normal use of a user can be influenced.

Based on the problems existing in the above two modes, it is necessary to provide an earphone assembly to solve the problem of call interruption.

The first implementation mode comprises the following steps:

with reference to fig. 1 and 2, an embodiment provides an earphone assembly, which includes a self-powered earphone 100 and a standby power supply 200, where the self-powered earphone 100 and the standby power supply 200 are in a positioning fit and magnetically connected; when the self-powered headset 100 and the standby power supply 200 are in positioning fit and magnetically connected, the standby power supply 200 charges the self-powered headset 100 for energy transmission.

In the earphone assembly, the user wears the self-power-supply earphone 100 on the ear, and when the user knows that the electric quantity of the self-power-supply earphone 100 is insufficient, the user can configure the standby power supply 200 on the self-power-supply earphone 100 by utilizing the positioning fit and the magnetic attraction connection of the self-power-supply earphone 100 and the standby power supply 200 during the call, so that the standby power supply 200 can charge and transmit energy to the self-power-supply earphone 100.

Compared with the above-mentioned power supply by replacing the power supply, in the process of configuring the standby power supply 200 to the self-powered headset 100, the self-powered headset 100 can avoid the problem of being forced to interrupt the call because of no power supply.

Compared with the conventional method of charging by clamping the standby power supply 200, the self-powered headset 100 is less interfered by external force in the process of arranging the standby power supply 200 on the self-powered headset 100, so that the standby power supply 200 can be arranged on the self-powered headset 100 under the condition that the self-powered headset 100 is not detached from ears, and the standby power supply 200 can charge and transmit energy to the self-powered headset 100; and further, the problem of call interruption caused by the detachment of the self-power-supply earphone 100 can be avoided.

Referring to fig. 3, in one embodiment, the self-powered headset 100 includes a self-powered portion 110 and a first conductor 120 electrically connected to the self-powered portion 110; the backup power supply 200 includes a power storage portion 210 and a second conductor 220 conductively connected to the power storage portion 210; when the first conductor 120 is electrically connected to the second conductor 220, the power storage portion 210 can charge the self-power-distribution portion 110. The efficiency of charging and transferring energy from the power storage part 210 to the self-distribution power supply part 110 is realized by the conductive connection of the first conductor 120 and the second conductor 220, and the structure of charging and transferring energy is simple.

Specifically, as shown in fig. 3, in the present embodiment, the self-powered headset 100 further includes a first charging circuit 130, the number of the first conductors 120 is two, the self-powered portion 110 is connected to the first charging circuit 130, and the two first conductors 120 are connected to the first charging circuit 130. The backup power source 200 includes a second charging circuit 230, two second conductors 220, the power storage portion 210 is connected to the second charging circuit 230, and the two second conductors 220 are connected to the second charging circuit 230; the two second conductors 220 correspond one-to-one to the two first conductors 120. When the second conductors 220 are electrically connected to the two first conductors 120 in a one-to-one correspondence, the power storage portion 210 charges the self-distribution power supply portion 110 with power.

Referring to fig. 1, in the embodiment, specifically, the self-powered headset 100 further includes a headset housing 140, the self-powered portion 110 and the first charging circuit 130 are installed in the headset housing 140, and the two first conductors 120 are installed on the headset housing 140 and at least partially exposed for electrically connecting with the second conductor 220. The backup power supply 200 further comprises a power supply housing 240, the power storage portion 210 and the second charging circuit 230 are mounted in the power supply housing 240, and the two second conductors 220 are mounted on the power supply housing 240 and at least partially exposed for electrically conductive connection with the first conductor 120.

In one embodiment, the first conductor 120 or the second conductor 220 is a copper pillar mounted elastically and telescopically. In the magnetic connection process of the self-power-supply earphone 100 and the standby power supply 200, the copper column installed in an elastic telescopic manner can avoid the rigid contact between the first conductor 120 and the second conductor 220, and further effectively reduces the acting force between the first conductor 120 and the second conductor 220.

Referring to fig. 1, in an embodiment, the self-powered headset 100 is provided with a first magnetic attraction member 160, and the standby power supply 200 is provided with a second magnetic attraction member 260 magnetically attracted and matched with the first magnetic attraction member 160; one of the first magnetic attraction piece 160 and the second magnetic attraction piece 260 is made of a magnet, and the other of the first magnetic attraction piece 160 and the second magnetic attraction piece 260 is made of a magnet or an iron piece attracted with the magnet.

Specifically, in this embodiment, the first magnetic attraction member 160 and the second magnetic attraction member 260 are made of magnets, and the self-powered headset 100 and the standby power supply 200 are magnetically attracted and positioned to cooperate with each other through the first magnetic attraction member 160 and the second magnetic attraction member 260.

It should be explained that: the first magnetic attraction piece 160 and the second magnetic attraction piece 260 are made of magnets, and the first magnetic attraction piece 160 and the second magnetic attraction piece 260 can be positioned and attracted under the action of magnetic force.

It should be noted that there are various ways for the first magnetic attraction member 160 and the second magnetic attraction member 260 to attract each other to achieve the positioning and matching between the self-powered headset 100 and the standby power supply 200.

As shown in connection with fig. 1, for example: the number of the first magnetic attraction pieces 160 and the number of the second magnetic attraction pieces 260 are two, the two first magnetic attraction pieces 160 are respectively arranged on two sides of the first conductor 120, the two second magnetic attraction pieces 260 are respectively arranged on two sides of the second conductor 220, and the two first magnetic attraction pieces 160 and the two second magnetic attraction pieces 260 correspond to each other one by one; when the two first magnetic attraction pieces 160 and the two second magnetic attraction pieces 260 are magnetically connected in a one-to-one correspondence manner, the self-powered earphone 100 is positioned and matched with the standby power supply 200. Or, the first magnetic attraction pieces 160 and the second magnetic attraction pieces 260 are all three, the three first magnetic attraction pieces 160 are arranged at intervals to form a non-equilateral triangle, the three second magnetic attraction pieces 260 and the three first magnetic attraction pieces 160 are arranged in a one-to-one correspondence manner, and when the three first magnetic attraction pieces 160 and the three second magnetic attraction pieces 260 are connected in a one-to-one correspondence manner, the self-powered headset 100 is in positioning fit with the standby power supply 200.

In one embodiment, the self-powered headset 100 is a communications headset. Specifically, the communication headset is a bluetooth headset. Of course, the communication headset may be other wireless headsets.

The second embodiment:

as shown in fig. 3 and 4, compared to the first embodiment, the first embodiment adopts a charging and energy transferring method different from that of the first embodiment.

Referring to fig. 4, in this embodiment, the self-powered headset 100 includes a self-powered portion 110 and a first charging coil 150 electrically connected to the self-powered portion 110; the backup power source 200 includes a power storage part 210 and a second charging coil 250 conductively connected with the power storage part 210; when the first charging coil 150 is mated with the second charging coil 250, the power storage part 210 charges and transfers power to the self-power distribution part 110.

The third embodiment is as follows:

as shown in fig. 1 and 2, compared with the first embodiment, a magnetic connection manner different from that of the first embodiment is adopted in the present embodiment.

Referring to fig. 2, in this embodiment, one of the first magnetic attraction member 160 and the second magnetic attraction member 260 is made of an iron member, one of the self-powered headset 100 and the standby power supply 200 is provided with a positioning protrusion 170, and the other of the self-powered headset 100 and the standby power supply 200 is provided with a positioning groove 270 for installing the positioning protrusion 170; when the positioning protrusion 170 is installed in the positioning groove 270, the self-powered headset 100 is positioned and matched with the standby power supply 200.

It should be noted that there are various ways for the positioning protrusion 170 and the positioning groove 270 to realize the positioning and matching of the self-powered headset 100 and the standby power supply 200.

For example: two positioning grooves 270 and two positioning protrusions 170 are provided, the two positioning grooves 270 are respectively arranged on two sides of the first conductor 120, the two positioning protrusions 170 are respectively arranged on two sides of the second conductor 220, and the two positioning grooves 270 and the two positioning protrusions 170 are in one-to-one correspondence; when the two positioning grooves 270 and the two positioning protrusions 170 are magnetically connected in a one-to-one correspondence manner, the self-powered earphone 100 is positioned and matched with the standby power supply 200. Alternatively, the cross-sections of the positioning groove 270 and the positioning protrusion 170 are rectangular, pentagonal, or the like.

The fourth embodiment:

compared with the first embodiment, the magnetic attraction connection mode different from the first embodiment is adopted in the present embodiment.

In this embodiment, one of the first magnetic attraction member 160 and the second magnetic attraction member 260 is made of an iron member, and the standby power supply 200 is provided with a concave surface (not shown) adapted to the profile of the self-powered headset 100, and when the concave surface is adapted to the profile of the self-powered headset 100, the self-powered headset 100 is positioned and matched with the standby power supply 200.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. The headset assembly is characterized by comprising a self-distribution power supply headset and a standby power supply, wherein the self-distribution power supply headset and the standby power supply can be matched in a positioning way and are connected in a magnetic attraction way;

when the self-power-supply earphone is matched with the stand-by power supply in a positioning way and connected with the stand-by power supply in a magnetic attraction way, the stand-by power supply charges and transmits energy to the self-power-supply earphone.

2. The headset assembly of claim 1, wherein the self-powered headset comprises a self-powered portion and a first conductor in conductive connection with the self-powered portion;

the standby power supply comprises a power storage part and a second conductor in conductive connection with the power storage part;

when the first conductor is electrically connected with the second conductor, the power storage part can charge the self-distribution power supply part.

3. The earphone assembly of claim 2 wherein the first or second conductor is a resiliently mounted copper post.

4. The headset assembly of claim 1, wherein the self-powered headset comprises a self-powered portion and a first charging coil conductively coupled to the self-powered portion;

the standby power supply comprises a power storage part and a second charging coil in conductive connection with the power storage part;

when the first charging coil is matched with the second charging coil, the power storage part charges and transmits power to the self-distribution power supply part.

5. The earphone assembly according to any one of claims 1-4, wherein the self-powered earphone is provided with a first magnetic attraction member, and the standby power supply is provided with a second magnetic attraction member magnetically engaged with the first magnetic attraction member; one of the first magnetic attraction piece and the second magnetic attraction piece is made of a magnet, and the other of the first magnetic attraction piece and the second magnetic attraction piece is made of a magnet or an iron piece attracted by the magnet.

6. The earphone assembly of claim 5 wherein when the first and second magnetic elements are made of magnets, the self-powered earphone and the standby power supply are magnetically attracted and positioned with each other by the first and second magnetic elements.

7. The earphone assembly of claim 5 wherein when one of the first and second magnetically attracted members is made of iron, one of the self-powered earphone and the backup power supply is provided with a positioning protrusion, and the other of the self-powered earphone and the backup power supply is provided with a positioning groove for mounting the positioning protrusion; when the positioning bulge is arranged in the positioning groove, the self-power-supply earphone is matched with the standby power supply in a positioning way.

8. The earphone assembly of claim 5 wherein when one of the first and second magnetically attractive elements is made of iron, the backup power source has a concave surface that matches the profile of the self-powered earphone, and the self-powered earphone is positioned and mated with the backup power source when the concave surface matches the profile of the self-powered earphone.

9. The headset assembly of claim 1, wherein the self-powered headset is a communications headset.

10. The headset assembly of claim 9, wherein the communication headset is a bluetooth headset.

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