CN211406228U - Neck hanging type Bluetooth earphone - Google Patents

Abstract

The utility model relates to the technical field of intelligent listening and wearing, in particular to a neck hanging type Bluetooth earphone, which comprises a neck frame and two earphone bodies, wherein two end parts of the neck frame are respectively sunken to form a containing groove, and each earphone body is respectively inserted into one containing groove; the neck hanging type Bluetooth earphone also comprises a Bluetooth main control module arranged in the neck frame, Hall switches arranged in each end part of the neck frame and magnets which are arranged in each earphone body and are matched with the Hall switches corresponding to each earphone body, the two earphone bodies are both connected with the Bluetooth main control module, and each Hall switch is arranged on the wall surface opposite to the wall surface of the accommodating groove in the neck frame and is connected with the Bluetooth main control module; when at least one of the earphone bodies is separated from the accommodating groove, the Hall switch is triggered by the magnet far away from the accommodating groove to provide an opening state of an opening control signal for the Bluetooth main control module, and when the earphone bodies and the Bluetooth main control module are inserted into the accommodating groove together, the Hall switch is triggered by the magnet close to the accommodating groove to provide a closing state of the closing control signal for the Bluetooth main control module.

Description

Neck hanging type Bluetooth earphone

Technical Field

The utility model belongs to the technical field of the intelligence is listened and is worn, more specifically says, relates to a hanging bluetooth headset of neck.

Background

In recent years, bluetooth earphones are rapidly developed, compared with traditional wired earphones, the bluetooth earphones can enable users to avoid bothersome wire stumbling, enjoy music freely, and can be used for operating earphones independently to easily talk, so that the experience of users when the earphones are used is enhanced.

Currently, most bluetooth headsets play/pause music and hang/receive calls by means of touching keys, touching keys and the like. These operation methods, on the one hand, have the maloperation risk, and on the other hand, when bluetooth headset was in the wearing state, the user can't see the button, need rely on and feel to go to touch or take off the button, and the operation is inconvenient.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a hanging bluetooth headset of neck to there is the mode through the operation button among the solution prior art to realize hanging/connecing of music broadcast/pause and phone, there is the maloperation risk on the one hand, and on the other hand, when bluetooth headset is in the wearing condition, the user can not see the button, need rely on and feel to remove the touch or take off the button, operates inconvenient technical problem.

In order to achieve the above object, the utility model adopts the following technical scheme: the neck hanging type Bluetooth earphone comprises a neck frame and two earphone bodies, wherein two end parts of the neck frame are respectively sunken to form accommodating grooves, and each earphone body is respectively inserted into one accommodating groove;

the neck hanging type Bluetooth headset further comprises a Bluetooth main control module arranged in the neck frame, Hall switches arranged in each end part of the neck frame and magnets which are arranged in each headset body and are matched with the Hall switches corresponding to the headset bodies, the two headset bodies are connected with the Bluetooth main control module, and each Hall switch is arranged on the wall surface of the neck frame opposite to the wall surface of the accommodating groove and is connected with the Bluetooth main control module;

when at least one of the two earphone bodies is separated from the accommodating groove, the Hall switch is triggered by the magnet far away from the accommodating groove to provide an opening state of an opening control signal for the Bluetooth main control module, and when the two earphone bodies are jointly inserted into the accommodating groove, the Hall switch is triggered by the magnet close to the accommodating groove to provide a closing state of the closing control signal for the Bluetooth main control module.

Further, the neck brace comprises two end shells, each end shell comprises a main shell and a side cover, the main shell is provided with a side opening cavity, the end part of the main shell is sunken into the side opening cavity to form the accommodating groove, and the side cover is buckled with the opening of the side opening cavity of the main shell

And the Hall switch is fixed on the wall surface of the side opening cavity, which is opposite to the accommodating groove, and the Bluetooth main control module is fixed on the side opening cavity.

Furthermore, each end shell also comprises a positioning enclosing wall which is formed by the cavity wall of the side-opening cavity and protrudes and extends around the Hall switch.

Furthermore, the location enclosure is equipped with and is used for supplying the connection in hall switch with dodge breach that a plurality of pin lines between the bluetooth host system passed.

Further, the magnet is fixed on the position, opposite to the hall switch, in the inner wall of the earphone body.

Furthermore, the earphone body comprises a base with a containing cavity and an end cover with a sound outlet, and the end cover is buckled on the base;

the earphone body further comprises an installation enclosing wall formed by protruding extension of the wall of the accommodating cavity, the installation enclosing wall and the wall of the accommodating cavity corresponding to the installation enclosing wall form an installation groove together, and the magnet is installed in the installation groove.

Furthermore, the neck hanging type bluetooth headset further comprises two magnetic suction components, each magnetic suction component comprises a first magnetic part and a second magnetic part magnetically attracted with the first magnetic part, each first magnetic part is fixed in one headset body, the second magnetic part is fixed in the end part, corresponding to the headset body, of the neck frame, and each headset body has a fixed state magnetically attracted with the second magnetic part through the first magnetic part when inserted into the accommodating groove corresponding to the headset body.

Furthermore, the first magnetic piece is fixed in the region of the inner wall of the earphone body, which is opposite to the bottom of the accommodating groove, and the second magnetic piece is fixed in the region of the inner wall of the neck frame, which is opposite to the bottom of the accommodating groove.

Further, the hall switch is fixed in a region of the cavity wall of the side opening cavity opposite to the wall of the accommodating groove, and the magnet is fixed in a region of the inner wall of the earphone body opposite to the wall of the accommodating groove.

Further, the first magnetic part and the second magnetic part are both magnets.

The utility model provides a pair of hanging bluetooth headset of neck's beneficial effect lies in: the neck-hung Bluetooth earphone comprises a neck frame and two earphone bodies, wherein each earphone body is respectively inserted into a containing groove at one end part of the neck frame, the neck frame is sleeved on the neck of a user, and when the two earphone bodies are not required to be used, the two earphone bodies are directly inserted into the respective containing grooves; when in use, the utility model can be taken out from the containing groove directly, which is not only convenient for use, but also convenient for carrying. The neck hanging type Bluetooth headset further comprises a Bluetooth main control module arranged in the neck frame, Hall switches arranged in each end of the neck frame and magnets arranged in each headset body, the two headset bodies are all connected with the Bluetooth main control module, and each Hall switch is arranged on the wall surface opposite to the wall surface of the containing groove in the neck frame, so that the magnets can be more directly sensed conveniently. Each hall switch all is connected with bluetooth host system, and understandably, each hall switch senses the magnetic field change, gives bluetooth host system with the signal transmission that this change produced, and bluetooth host system detects this change signal time, handles and controls the earphone body and carries out corresponding operation. Therefore, when at least one of the two earphone bodies is separated from the accommodating groove, namely the magnet is far away from the Hall switch, the Hall switch senses a change signal and outputs a high level, the Bluetooth main control module can detect the high level output by the Hall switch and control each earphone body to be in an open state, and the open state can be automatic starting, automatic music playing and automatic telephone answering. When the two earphone bodies are inserted into the accommodating groove, the magnets are close to the corresponding Hall switches, the Hall switches sense the change signals and output low levels, the Bluetooth main control module detects the low level signals output by the two Hall switches and controls the two earphone bodies to be in a closed state, and the closed state corresponds to an open state, namely, the earphone bodies can be automatically turned off, automatically pause music and automatically hang up. Therefore, through the matching arrangement of the Hall switch and the magnet, the earphone body is taken down from the neck frame or put back to the neck frame without manually operating functional keys, so that the automatic on/off, automatic music playing/pausing and automatic call answering/hanging-up can be realized, the structure is simple, and the operation is convenient.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the embodiments or the prior art descriptions will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive labor.

Fig. 1 is a partially exploded perspective view of a neck hanging bluetooth headset according to an embodiment of the present invention;

fig. 2 is another partially exploded perspective view of a neck-hanging bluetooth headset according to an embodiment of the present invention;

fig. 3 is a perspective view of a base provided in the embodiment of the present invention.

Wherein, in the figures, the respective reference numerals:

neck support	100	Earphone body	200
				Containing groove	101	Bluetooth master control module	300
Hall switch	400	Magnet body	500
				End shell	110	Main shell	111
Side cover	112	Side-opening cavity	102
				Positioning enclosing wall	113	Avoiding gap	103
Base seat	210	Containing cavity	201
				End cap	220	Sound outlet	202
Installation enclosure wall	230	Mounting groove	203
				Magnetic suction assembly	600	First magnetic part	610
Second magnetic part	620

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It will be understood that when an element is referred to as being "fixed to" or "disposed on" another element, it can be directly on the other element or it can be indirectly fixed to or disposed on the other element through a third member. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element through a third component.

It will be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in an orientation or positional relationship indicated in the drawings for convenience in describing the invention and to simplify the description, and are not intended to indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

Referring to fig. 1 and 2, an embodiment of the present invention provides a neck hanging type bluetooth earphone, which includes a neck frame 100 and two earphone bodies 200, wherein two ends of the neck frame 100 are respectively recessed to form a receiving groove 101, and each earphone body 200 is respectively inserted into one receiving groove 101. The neck hanging type bluetooth earphone further comprises a bluetooth main control module 300 arranged in the neck frame 100, hall switches 400 arranged in each end of the neck frame 100 and magnets 500 configured in each earphone body 200 and matched with the hall switches 400 corresponding to each earphone body 200, the two earphone bodies 200 are both connected with the bluetooth main control module 300, and each hall switch 400 is arranged on the wall surface of the neck frame 100 opposite to the wall surface of the accommodating groove 101 and connected with the bluetooth main control module 300. Each earphone body 200 provides an on state of an on control signal to the bluetooth main control module 300 by triggering the hall switch 400 through the magnet 500 far from the receiving slot 101 when at least one of the earphone bodies 200 is separated from the receiving slot 101, and provides an off state of an off control signal to the bluetooth main control module 300 by triggering the hall switch 400 through the magnet 500 near the receiving slot 101 when the two earphone bodies are inserted together in the receiving slot 101.

In this embodiment, the neck hanging bluetooth headset includes a neck frame 100 and two earphone bodies 200, each earphone body 200 is respectively inserted into the receiving groove 101 at one end of the neck frame 100, and the neck frame 100 is hung around the neck of the user, when the two earphone bodies 200 are not needed to be used, they are directly inserted into the respective receiving grooves 101; when in use, the utility model is directly taken out from the containing groove 101, which is not only convenient for use, but also convenient for carrying. The neck hanging type Bluetooth headset further comprises a Bluetooth main control module 300 arranged in the neck frame 100, Hall switches 400 arranged in each end of the neck frame 100 and magnets 500 arranged in each headset body 200, the two headset bodies 200 are all connected with the Bluetooth main control module 300, and each Hall switch 400 is arranged on the wall surface of the neck frame 100 opposite to the wall surface of the accommodating groove 101, so that the magnets 500 can be more directly sensed conveniently. Each hall switch 400 is connected to the bluetooth main control module 300, and it can be understood that each hall switch 400 senses the change of the magnetic field, and transmits the signal generated by the change to the bluetooth main control module 300, and when the bluetooth main control module 300 detects the change signal, the bluetooth main control module processes and controls the earphone body 200 to execute the corresponding operation. Thus, when at least one of the two earphone bodies 200 is separated from the receiving groove 101, that is, the magnet 500 is far away from the hall switch 400, and at this time, the hall switch 400 senses the variation signal and outputs a high level, the bluetooth main control module 300 can detect the high level output by the hall switch 400 and control each earphone body 200 to be in an open state, wherein the open state can be automatic power on, automatic music playing and automatic telephone answering. When the two earphone bodies 200 are inserted into the receiving groove 101, the magnets 500 are close to the corresponding hall switches 400, the hall switches 400 sense the change signals and output low levels, the bluetooth master control module 300 detects the low level signals output by the two hall switches 400 and controls the two earphone bodies 200 to be in a closed state, and the closed state corresponds to an open state, namely, automatic shutdown, automatic music pause and automatic call hang-up can be realized. Therefore, through the cooperation of the hall switch 400 and the magnet 500, the earphone body 200 can be automatically turned on/off, automatically played/paused and automatically answered/hung up without error operation by only removing the earphone body 200 from the neck frame 100 or putting the earphone body 200 back on the neck frame 100 without manually operating function keys, and the structure is simple and the operation is convenient.

Referring to fig. 1, further, the neck frame 100 includes two end shells 110, each end shell 110 includes a main shell 111 and a side cover 112, the main shell 111 has a side open cavity 102, and an end portion of the main shell 111 is recessed into the side open cavity 102 to form an accommodating groove 101, the side cover 112 is fastened to an opening of the side open cavity 102 of the main shell 111, the hall switch 400 is fixed to a wall surface opposite to the accommodating groove 101 in a cavity wall of the side open cavity 102, and the bluetooth main control module 300 is fixed to the side open cavity 102.

In this embodiment, the neck frame 100 further includes a C-shaped connecting shell, and two ends of the connecting shell are respectively connected to the end of each end shell 110 opposite to the receiving groove 101.

Referring to fig. 1, each end shell 110 further includes a positioning wall 113 formed by protruding from the wall of the side-open cavity 102 and surrounding the hall switch 400. The hall switch 400 is fixed in the positioning enclosing wall 113, so that on one hand, the hall switch 400 is convenient to be quickly positioned and installed; on the other hand, it also functions to protect the hall switch 400.

Referring to fig. 1, further, the positioning wall 113 is provided with an avoidance gap 103 for passing through a plurality of pin wires connected between the hall switch 400 and the bluetooth master control module 300. Therefore, the lead wires are smoothly led out, the tilting cannot occur, and the connection stability is improved.

Referring to fig. 1, further, a magnet 500 is fixed in the inner wall of the earphone body 200 at a position opposite to the hall switch 400. Thus, the hall switch 400 can sense the change of the magnetic field quickly, and the control efficiency of the functional module can be improved understandably.

Referring to fig. 1 and fig. 3, further, the earphone body 200 includes a base 210 having a receiving cavity 201 and an end cap 220 having a sound outlet 202, the end cap 220 is fastened to the base 210;

the earphone body 200 further comprises a mounting enclosing wall 230 formed by the wall of the accommodating cavity 201 in a protruding mode, the mounting enclosing wall 230 and the wall of the corresponding accommodating cavity 201 form a mounting groove 203 together, and the magnet 500 is mounted in the mounting groove 203. Thus, the installation efficiency of the magnet 500 is improved.

In the present embodiment, the magnet 500 is a magnet with magnetism.

Referring to fig. 1, further, the bluetooth headset further includes two magnetic assemblies 600, each magnetic assembly 600 includes a first magnetic member 610 and a second magnetic member 620 magnetically attracted to the first magnetic member 610, each first magnetic member 610 is respectively fixed in one earphone body 200, each second magnetic member 620 is fixed in an end portion of the neck frame 100 corresponding to the earphone body 200, and each earphone body 200 has a fixed state magnetically attracted to the second magnetic member 620 through the first magnetic member 610 when inserted into the corresponding receiving groove 101. Like this, can realize that each earphone body 200 is quick and automatic to return through magnetism subassembly 600, insert in each storage tank 101 promptly, simultaneously, realize each earphone body 200 fixed, be difficult for deviating from. Further, the first magnetic member 610 is fixed to a region of the inner wall of the earphone body 200 opposite to the bottom of the receiving groove 101, and the second magnetic member 620 is fixed to a region of the inner wall of the neck frame 100 opposite to the bottom of the receiving groove 101.

Referring to fig. 1, further, the hall switch 400 is fixed to a region of the cavity wall of the side-open cavity 102 opposite to the groove wall of the receiving groove 101, and the magnet 500 is fixed to a region of the inner wall of the earphone body 200 opposite to the groove wall of the receiving groove 101.

Referring to fig. 1, the first magnetic member 610 and the second magnetic member 620 are both magnets.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (9)

1. A neck-hung Bluetooth headset is characterized by comprising a neck frame and two headset bodies, wherein two end parts of the neck frame are respectively sunken to form accommodating grooves, and each headset body is respectively inserted into one accommodating groove;

the neck hanging type Bluetooth headset further comprises a Bluetooth main control module arranged in the neck frame, Hall switches arranged in each end part of the neck frame and magnets which are arranged in each headset body and are matched with the Hall switches corresponding to the headset bodies, the two headset bodies are connected with the Bluetooth main control module, and each Hall switch is arranged on the wall surface of the neck frame opposite to the wall surface of the accommodating groove and is connected with the Bluetooth main control module;

when at least one of the two earphone bodies is separated from the accommodating groove, the Hall switch is triggered by the magnet far away from the accommodating groove to provide an opening control signal for the Bluetooth main control module, and when the two earphone bodies are jointly inserted into the accommodating groove, the Hall switch is triggered by the magnet close to the accommodating groove to provide a closing control signal for the Bluetooth main control module;

the neck hanging type Bluetooth headset further comprises two magnetic suction components, each magnetic suction component comprises a first magnetic part and a second magnetic part magnetically attracted with the first magnetic part, each first magnetic part is fixed in one headset body, each second magnetic part is fixed in the end part, corresponding to the headset body, of the neck frame, and each headset body has a fixed state magnetically attracted with the second magnetic part through the first magnetic part when inserted into the accommodating groove corresponding to the headset body.

2. The neck hanging type bluetooth headset according to claim 1, wherein the neck frame comprises two end shells, each of the end shells comprises a main shell and a side cover, the main shell has a side opening cavity, the end of the main shell is recessed into the side opening cavity to form the accommodating groove, the side cover is fastened at the opening of the side opening cavity of the main shell, the hall switch is fixed on a wall surface opposite to the accommodating groove in the cavity wall of the side opening cavity, and the bluetooth main control module is fixed in the side opening cavity.

3. The neckhanging bluetooth headset of claim 2, wherein each end housing further comprises a positioning fence formed by the side open cavity wall protruding around the hall switch.

4. The hanging bluetooth headset of claim 3, wherein the positioning wall has an avoidance gap for passing a plurality of pin wires connected between the hall switch and the bluetooth main control module.

5. The Bluetooth neck-hung earphone according to any one of claims 2 to 4, wherein the magnet is fixed in a position facing the Hall switch in an inner wall of the earphone body.

6. The neckhanging Bluetooth headset of claim 5, wherein the headset body comprises a base having a receiving cavity and an end cap having a sound outlet, the end cap snap-fitting to the base;

the earphone body further comprises an installation enclosing wall formed by protruding extension of the wall of the accommodating cavity, the installation enclosing wall and the wall of the accommodating cavity corresponding to the installation enclosing wall form an installation groove together, and the magnet is installed in the installation groove.

7. The neckhanging bluetooth headset of claim 2, wherein the first magnetic member is fixed to a region of the inner wall of the headset body opposite to the bottom of the receiving slot, and the second magnetic member is fixed to a region of the inner wall of the neck frame opposite to the bottom of the receiving slot.

8. The Bluetooth neck-hung earphone according to claim 7, wherein the Hall switch is fixed to a region of the cavity wall of the side-open cavity opposite to the wall of the receiving cavity, and the magnet is fixed to a region of the inner wall of the earphone body opposite to the wall of the receiving cavity.

9. The neckhanging bluetooth headset of claim 1, wherein the first magnetic member and the second magnetic member are both magnets.

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