CN216905250U - Neck hanging earphone - Google Patents

Abstract

The application is suitable for the technical field of playing equipment, and particularly provides a neck hanging earphone which comprises a main control cabin, a main coil, an opening and closing device and earplugs; a rechargeable battery is arranged in the main control bin, and a control assembly is arranged in the main control bin; two ends of the main coil are connected with the main control bin; the switching device comprises two ports which can be mutually inserted and separated, at least one port is a plug port, the plug port is electrically connected with the main control bin, the plug port is used for charging the rechargeable battery and/or transmitting data to the main control bin, the switching device is positioned on the main coil, the main coil is disconnected when the two ports are separated, the main coil forms a closed loop structure when the two ports are inserted, the earplugs are electrically connected with the main control bin through the earplug wires, the earplug wires of the earplugs are arranged on the main coil, and the control component is used for controlling the playing state of the earplugs. The earphone aims at solving the technical problems that the existing earphone in the prior art is poor in overall structure attractiveness, inconvenient to operate and easy to fall off when hung.

Description

Neck hanging earphone

Technical Field

The utility model relates to the technical field of playing equipment, in particular to a neck hanging earphone.

Background

Traditional neck hanging earphone generally comprises two earplugs plus earplug line and the semi-open type loop configuration of cover neck, go into the ear with two earplugs when using, and hang the loop configuration of semi-open type in the neck, the drawback of this kind of earphone lies in because the structure of cover neck is semi-open type, make and drop easily when using, charge mouthful and button all be located cover neck structural, whole aesthetic property is not easy to operate, and can't look directly at the operation when hanging at the neck human eye, can only go the blind key of touching with the hand, maneuverability effect is not good.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a neck hanging earphone, and aims to solve the technical problems that the existing earphone in the prior art is poor in overall structure attractiveness, inconvenient to operate and easy to fall off when being hung.

In order to achieve the purpose, the utility model adopts the technical scheme that: there is provided a neck-hanging earphone comprising:

the main control cabin is internally provided with a rechargeable battery, and the main control cabin is internally provided with a control assembly;

the two ends of the main coil are connected with the main control bin;

the opening and closing device comprises two ports which can be mutually inserted and separated, at least one port is a plug interface, the plug interface is electrically connected with the main control bin, the plug interface is used for charging a rechargeable battery and/or transmitting data to the main control bin, the opening and closing device is positioned on the main coil, and the main coil is disconnected when the two ports are separated and forms a closed-loop structure when the two ports are inserted; and

the earplug is electrically connected with the control component through the earplug wire, the earplug wire of the earplug is arranged on the main coil, and the control component is used for controlling the playing state of the earplug.

In one embodiment, the control assembly comprises:

the touch panel is provided with a touch sensing component and/or a physical key, is positioned on the surface of the main control cabin, and can input instructions through touching and/or the key to control the earplug; and

and the control module is electrically connected with the touch panel.

In one embodiment, an audio processing module is arranged in the earplug, the audio processing module is electrically connected with the control module, and the audio processing module is electrically connected with a playing module in the earplug;

the control assembly is further provided with a Bluetooth module, and the Bluetooth module is electrically connected with the control module.

In one embodiment, the control module is further electrically connected with a storage module, the control module is electrically connected with the socket, and the socket is further electrically connected with a rechargeable battery.

In one embodiment, the number of the earplugs is two, the two earplugs are internally provided with second magnets, the main control bin is internally provided with two first magnets which are respectively arranged corresponding to the two second magnets, the two earplugs are attracted by attraction of the second magnets, and the earplugs and the main control bin are attracted by attraction of the second magnets and the first magnets.

In one embodiment, the surface of the main control cabin has at least one first contact surface, the earplugs have second contact surfaces matched with the first contact surfaces, and the main control cabin and the earplugs are attracted through the first contact surfaces and the second contact surfaces.

In one embodiment, a first hall sensor and a second hall sensor are arranged in the main control bin, the first hall sensor and the second hall sensor are electrically connected with the control module and used for transmitting signals to the control module to control the playing state of the earplug, the first hall sensor is used for detecting the attraction state between the second magnet and the first magnet, and the second hall sensor is used for detecting the attraction state between the two second magnets.

In one embodiment, the main control cabin is a shell-shaped structure with an inner cavity, the number of the first contact surfaces is two, the two first contact surfaces are respectively arranged on two symmetrical side surfaces of the main control cabin, and the first contact surface is one of a plane, an arc surface or a bending surface.

In one embodiment, when the second magnet and the first magnet are mutually attracted, the first hall sensor is used for transmitting a signal to the control module to enable the earplug to stop playing;

or when the two second magnets are mutually attracted, the second Hall sensor is used for transmitting a signal to the control module so as to stop the playing of the earplug.

In one embodiment, an infrared distance sensor or a capacitive sensor is further arranged in the earplug, the infrared distance sensor and the capacitive sensor are both used for detecting the distance between the earplug and the human ear, the infrared distance sensor and the capacitive sensor are both electrically connected with the control module, the control module can send a first control instruction when the earplug is inserted into the ear, and the control module can send a second control instruction when the first magnet and the second magnet are mutually attracted.

The beneficial effect of the hanging earphone of neck in this embodiment lies in, compared with the prior art, the main coil has been set up, the main control storehouse is connected at the both ends of main coil, form confined loop configuration, can directly hang the main coil on the neck when wearing, be difficult for droing, and the main coil forms the structure of similar necklace formula together with the main control storehouse, the embellishment can be regarded as to the main control storehouse, overall structure is very pleasing to the eye, can directly control the main control storehouse and operate when cutting operations such as song, the simple operation, and when needs charge, the device separation that directly will open and shut, connect the electric charge that can realize with the interface of pegging graft.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the embodiments or the prior art descriptions will be briefly described 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 that other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a neck-hanging earphone according to an embodiment of the present invention;

FIG. 2 is a schematic view of the structure of FIG. 1 in another state;

FIG. 3 is a schematic view of the open device of FIG. 1;

fig. 4 is a control flow chart of the neck-hanging earphone according to the embodiment of the present invention.

In the figure: 1. a main control bin; 2. a main coil; 3. an opening and closing device; 4. an interface; 5. an earplug; 6. an ear bud wire.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present invention more clearly apparent, 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 utility model and do not limit the utility model.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. 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.

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 defined otherwise. The meaning of "a number" is one or more unless specifically limited otherwise.

In the description of the present invention, it is to be understood that the terms "center", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood according to specific situations by those of ordinary skill in the art.

Referring to fig. 1-3, the present invention provides an embodiment of a neck hanging earphone, which includes a main control chamber 1, a main coil 2, an opening and closing device 3, and earplugs 5;

wherein, a rechargeable battery is arranged in the main control cabin 1, and a control assembly is also arranged in the main control cabin 1; two ends of the main coil 2 are connected with the main control bin 1; the opening and closing device 3 comprises two ports which can be mutually inserted and separated, at least one port is an insertion port 4, the insertion port 4 is electrically connected with the main control bin 1, the insertion port 4 is used for charging a rechargeable battery and/or transmitting data to the main control bin 1, the opening and closing device 3 is positioned on the main coil 2, and the main coil 2 is disconnected when the two ports are separated, and the main coil 2 forms a closed loop structure when the two ports are inserted; the earplug 5 is electrically connected with the control component through the earplug wire 6, the earplug wire 6 of the earplug 5 is arranged on the main coil 2, and the control component is used for controlling the playing state of the earplug 5.

Specifically, a rechargeable battery is arranged in the main control cabin 1, and the rechargeable battery is used for providing power for devices needing power consumption, such as the control assembly and the earplugs 5, so that the normal operation of the equipment is ensured.

The main control cabin 1 is a shell-shaped structure, a control component is arranged inside the main control cabin 1, the control component can control the actions of equipment such as shutdown, opening, song cutting and pause, the control component at the position of the main control cabin 1 can be operated to control the playing state of the earplugs 5, and the earplugs 5 are electrically connected with the main control cabin 1 through the earplug wires 6 and are used for playing songs and the like.

The main coil 2 is an insulated flexible annular ring, two ends of the main coil are connected to the main control bin 1, the annular ring forms a closed annular structure, when a person carries the earphone, the annular main coil 2 can be hung on the neck, and then the main control bin 1 is located in front of the chest of the person, so that the decorative effect similar to a necklace is attractive. In addition, in order to enhance the decorative effect, a structure with beautiful decorative patterns or decorative lamps can be arranged on the surface of the main control cabin 1, for example, a luminous LED lamp is arranged on the surface of the main control cabin 1 along the edge of the main control cabin 1, the LED lamp is powered by a rechargeable battery, and the switch of the LED lamp is controlled by the control component, for example, the LED lamp can twinkle along with the change of music rhythm.

This embodiment has still included device 3 that opens and shuts, and device 3 that opens and shuts is connected on main coil 2, and main coil 2 is connected respectively to the both sides of opening and shutting device 3 promptly, when device 3 separation opens and shuts, then main coil 2 disconnection, can hang main coil 2 at the neck this moment, then peg graft device 3 that opens and shuts again, the convenience of operation ten minutes.

As shown in fig. 3, specifically, the opening and closing device 3 is formed by two ports, at least one port is a socket 4, the socket 4 is electrically connected to the main control cabin 1, and specifically can provide charging and/or data transmission for the rechargeable battery, and can be used as a TYPE-C charging port, a USB interface, or other TYPEs of data transmission interfaces, when the socket 4 is connected to the host computer, charging of the rechargeable battery can be achieved, and data transmission can also be performed. When one of the ports is the socket 4, the other port is not electrically connected, the other port is only used for being oppositely plugged with the socket 4, when the two ports are the sockets 4, any socket 4 can be selected for charging or data transmission, and an insulating device is arranged between the two ports when the two sockets 4 are plugged with each other, so that the two sockets 4 are not electrically connected, the short circuit is avoided, and the insulating device can be used for isolating insulating plastic films of the two ports when the two sockets are plugged.

As shown in fig. 1 and 2, preferably, the position of the opening and closing device 3 on the main coil 2 is opposite to the position of the main control cabin 1 on the main coil 2, that is, the length of the main coil 2 from the left side of the opening and closing device 3 to the main control cabin 1 is the same as the length of the main coil 2 from the right side of the opening and closing device 3 to the main control cabin 1, so that the main coil 2 is more symmetrical and more beautiful, and is easy to hang on the neck when the main coil 2 is detached, and the weight of both sides is the same, thus the operation is easy.

In addition, earplug 5 passes through earplug line 6 electricity connection main control storehouse 1 to can play sound, earplug line 6 is connected on main coil 2, namely stretches out in the main coil 2, can directly go into ear with earplug 5 when main coil 2 hangs at human neck, when not using, can pull out earplug 5 from the ear, makes it hang on main coil 2, very convenient. The earplug line 6 stretches out from the main coil 2, a line body used for electric connection is arranged in the main coil 2, the earplug line 6 is electrically connected with the line body, the other end of the line body is connected with the main control bin 1 so as to realize electric connection, the inserting port 4 is also electrically connected with the main control bin 1 through the line body in the main coil 2, the main coil 2 is provided with an inner hole, the line body is positioned in the inner hole, and the line body used for electrically connecting the earplug line 6 and the line body electrically connected with the inserting port 4 can be separately arranged in an insulating mode and can also be shared.

The shell structure of the main control bin 1 can be set as required, and can be specifically cuboid or cubic, round cake-shaped, cylindrical, spherical or even irregular.

The interface 4 is connected with the main control cabin 1 through the line body that is located main coil 2, and the device 3 that opens and shuts is equipped with the shell, and interface 4 is located the shell, and the line body is connected to in the shell, and when the line body stretches out from main coil 2 to when entering into the shell, because main coil 2 and the shell contact each other between the two position probably have unsealed space, so need seal this space, and this place can set up sealed glue isotructure and seal. Or set up the hole on the shell to partly in stuffing main coil 2 of line body outcrop department into the hole, also can realize sealing to a certain extent like this, and can also pour into sealed glue into between the inner wall of filling in 2 outer walls of main coil and hole in the hole, its effect is better.

The shell of the opening and closing device 3 does not have sharp end corners, the outer surface of the shell is a plane or a cambered surface, and particularly, the position of the end corner is an arc transition surface without a chamfer, so that the injury to the neck of a human body is avoided.

Further, a bunching device (not shown in the figure) can be arranged between the main coil 2 on the left side of the opening and closing device 3 and the main coil 2 on the right side of the opening and closing device 3, the bunching device comprises two beam coils which are connected with each other, the main coil 2 on the left side is positioned in one of the beam coils, and the main coil 2 on the right side is positioned in the other beam coil, so that the main coils 2 on the two sides can be close to each other, for example, when the main coil 2 is hung on the neck, the bunching device can be moved upwards, the distance between the main coils 2 on the two sides close to the neck of a human body is reduced, and thus, the excessive distance between the main coils 2 on the two sides can be prevented, a person can conveniently wear the bunching device when running, and the obstruction of the main coils 2 on the human body movement is reduced. The main coil 2 can be prevented from shaking to a greater extent at the neck of a human body.

Specifically, the beam coil can be of a plastic structure, anti-skid protrusions and anti-skid lines can be arranged on the inner side wall of the beam coil, the anti-skid lines can be arranged into waves and used for increasing the friction force between the inner wall of the beam coil and the outer surface of the main coil 2, the beam coil can move under the pushing condition of hands, and the beam coil cannot easily slide under the action of gravity in a free state.

It may also take the form of two loops connected by a connecting means, which may be a plastic rod, block or the like.

Furthermore, the connecting device can also adopt a device with adjustable length, so that the distance between the main coils 2 on the two sides can be adjusted, the degree of the wire harness is changed, and the distance between the main coils 2 on the two sides is adjusted.

Specifically, connecting device can for, including a rectangle shell, the both sides opening of rectangle shell, a spur rack is connected respectively to two beam coils, two spur racks stretch into the rectangle shell from the both sides opening respectively, the gear has been set up in the rectangle shell, gear connection has the gear shaft, the gear shaft stretches out from the rectangle shell, can make gear revolve through staff operation gear shaft, and two spur racks mesh with the both sides of gear respectively, then the spur rack setting has been between the inner wall of gear and rectangle shell, two spur rack relative motion when staff operation gear shaft clockwise turning, thereby make the distance between two beam coils diminish, when staff operation gear shaft anticlockwise rotation, two spur racks do the relative motion of keeping away from, can make the distance grow between two beam coils like this. Thereby realize adjusting, spur rack, gear, the gear shaft that provides in this embodiment are plastic construction, and the volume is less, easily operation, and the cost is lower. And under the condition that the human hand does not operate, the main coil 2 can not move by self only under the action of the friction force.

In addition, the connecting device can also adopt a form that comprises a rectangular shell, a rotating shaft, springs and connecting ropes, wherein the rectangular shell is provided with openings on two sides, the rotating shaft is also positioned in the rectangular shell, the rotating shaft also extends out of the rectangular shell, the extending end of the rotating shaft is twisted by hands to enable the rotating shaft to rotate, the connecting ropes are two, one ends of the two connecting ropes respectively enter the rectangular shell from the two openings of the rectangular shell and are wound on the rotating shaft, the other ends of the two connecting ropes are respectively connected with two bundle coils, the springs are also two, the two springs are respectively extruded between the rotating shaft and the bundle coils on the corresponding sides, the rotating shaft rotates clockwise, the two connecting ropes are wound on the rotating shaft, the two bundle coils are pulled to be close to the springs to be compressed, when the rotating shaft rotates anticlockwise, the connecting ropes are wound out of the rotating shaft, and the two bundle coils are relatively far away under the thrust of the springs.

As shown in fig. 4, in a preferred embodiment of the neck-hanging earphone provided in this embodiment, the control module includes a touch panel and a control module; the earplug 5 can be controlled by inputting instructions through touch and/or keys;

the touch panel is used for signal input, and specifically includes a touch sensing component and/or a physical key, the touch panel is exposed on the surface of the main control cabin 1, the touch panel forms a touch screen similar to a mobile phone touch screen, and the touch panel is used for collecting touch signals of a user, for example, the device is controlled by clicking, double clicking, sliding left and right up and down, long pressing and the like. The physical keys input signals in the form of physical pressing. The touch panel is electrically connected with the control module, and the control module is provided with a single chip microcomputer and other devices capable of processing signals.

An audio processing module is arranged in the earplug 5 and electrically connected with the control module, and the audio processing module is electrically connected with a playing module in the earplug 5.

The audio processing module is also electrically connected with the control module, and the audio processing module is used for converting the digital signals into audio signals, so that the audio processing module is also electrically connected with the playing module of the earplug 5, the sound is played through the playing module of the earplug 5, and the playing module can be a loudspeaker and the like. The control assembly is also internally provided with a Bluetooth module which is electrically connected with the control module. The control module can receive audio data sent by the mobile phone through the Bluetooth module and control the earplug 5 to play audio.

The control module is also electrically connected with the storage module, the control module is electrically connected with the interface 4, and the interface 4 is also electrically connected with the rechargeable battery.

In addition, since the socket 4 can transmit data after the socket 4 is inserted into an interface on a computer, the socket 4 is also electrically connected to the control module to retrieve data. The storage module is electrically connected with the control module and used for receiving the instruction of the control module and calling or storing data, and the storage module can store some audio files. The other electric connection of the socket 4 is a rechargeable battery, so that the rechargeable battery can be charged.

Therefore, in this embodiment, the touch panel generates a corresponding command signal by collecting a touch signal of a user, and transmits the command signal to the control module. The control module calls the audio frequency of the storage module or receives the data of the Bluetooth module according to the instruction signal, the audio frequency is processed by the audio frequency processing module and then played by the playing module of the earplug 5, when the interface 4 is connected with a computer, the control module can perform data interaction with the computer, the data in the storage module can be displayed on the computer, and a user can delete, add, replace and the like the data in the storage module on the computer.

As a preferred embodiment of the neck hanging earphone provided in this embodiment, the main coil 2 is a tubular structure having an inner hole, and the material of the main coil 2 is silica gel.

In this embodiment, the main coil 2 is used for being hung on the neck, so the main coil is made of softer silica gel material to protect the skin of the human body, an inner hole is arranged inside the main coil 2, that is, the main coil 2 is of a hollow structure, a wire body used for electrically connecting the earplug wire 6 and the wire body electrically connected with the interface 4 are arranged in the inner hole, one end of the wire body is connected with the earplug wire 6 or the interface 4, and the other end of the wire body is connected with the main control cabin 1.

As shown in fig. 3, the plug interface 4 is a male plug or a female plug. The interface 4 can be a male connector or a female connector, and a user can select the interface according to the requirement.

In one embodiment, there are two earplugs 5, two second magnets are disposed in the two earplugs 5, two first magnets disposed corresponding to the two second magnets are disposed in the main control cabin 1, the two earplugs 5 are attracted by attraction of the second magnets, and the earplugs 5 and the main control cabin 1 are attracted by attraction of the second magnets and the first magnets.

Two earplugs 5 insert left ear and right ear respectively, earplug 5 is including going into the ear and not going into the ear, be provided with the second magnet in not going into the ear part, specifically can be for establishing on the cylindricality of connecting earplug line 6, when not using earplug 5, can be in the same place two earplugs 5 through second magnet inter attraction, be convenient for deposit, and be equipped with first magnet in main control storehouse 1, can realize the actuation through the attraction of second magnet and first magnet between earplug 5 and the main control storehouse 1, earplug 5 adsorbs on the bulkhead in main control storehouse 1 promptly.

In order to facilitate the above-mentioned engagement, this embodiment further provides that the surface of the main control chamber 1 at least has a first contact surface, the earplugs 5 have a second contact surface adapted to the first contact surface, and the main control chamber 1 and the earplugs 5 are engaged with each other through the first contact surface and the second contact surface.

The earplugs 5 and the main control bin 1 are attracted through the second contact surface and the first contact surface, the fitting performance is better, the second magnet located in the earplugs 5 is located in the positions, corresponding to the second contact surface, of the earplugs 5, the first magnet located in the main control bin 1 is located in the position, corresponding to the first contact surface, of the main control bin 1, and the first magnet and the second magnet are mutually attached and attracted through the first contact surface and the second contact surface.

As shown in fig. 4, as a preferred embodiment of the neck hanging earphone provided in this embodiment, a first hall sensor and a second hall sensor are disposed in the main control chamber 1, the second hall sensor is disposed in the ear plug 5, the first hall sensor and the second hall sensor are electrically connected to the control component and are configured to transmit a signal to the control component to control the playing mode of the ear plug 5, the first hall sensor is configured to detect an attraction state between the second magnet and the first magnet, and the second hall sensor is configured to detect an attraction state between the two second magnets.

In this embodiment, the hall sensor can send a signal to the control component according to the detected magnetic field change condition, so that the control component controls the playing state of the earplug 5, specifically, when the second magnet and the first magnet attract each other, the first hall sensor located in the main control cabin 1 can detect the magnetic field change caused by the second magnet close to the first hall sensor, so as to send a corresponding signal to the control component, specifically, the hall sensor can send a signal to the control module of the control component, for example, when the earplug 5 attracts the main control cabin 1, it is stated that a person does not listen to a song at this time, and at this time, after the first hall sensor sends a signal, the control component controls the earplug 5 to stop playing.

Specifically, can set up a first hall sensor respectively at the both sides wall in main control storehouse 1, survey the second magnet that is close to of place side respectively, when second magnet and first magnet actuation, second magnet is located first hall sensor's response within range to make first hall sensor output level signal to control assembly, control assembly receives control earplug 5 after the signal and stops the broadcast.

The second hall sensor also located in the earplugs 5 is also electrically connected with the control component, that is, the control module in the control component, when the second magnets in the two earplugs 5 attract each other, the second hall sensor located in the earplugs 5 detects the change of the magnetic field, and also sends a signal to the control component to control the earplugs 5 to stop playing and other operations.

In particular, a second hall sensor may be provided in one or both of the earpieces 5, e.g. a second hall sensor located in the left earpiece for detecting a change in magnetic field when the second magnet in the right earpiece is close, such that a level signal occurs. When the earplug 5 is attracted with the main control cabin 1, the second hall sensor positioned in the earplug 5 is close to the main control cabin 1, but the first magnet positioned in the main control cabin 1 is not in the sensing range of the second hall sensor, and the two do not interfere.

Specifically, when the second magnet and the first magnet are mutually attracted, the first hall sensor is used for transmitting a signal to the control module so as to stop the playing of the earplug 5; or when the two second magnets are mutually attracted, the second hall sensor is used for transmitting a signal to the control module so as to stop the playing of the earplug 5.

As shown in fig. 4, as a preferred embodiment of the neck hanging earphone provided in this embodiment, an infrared distance sensor or a capacitive sensor is further disposed in the earplug 5, the infrared distance sensor and the capacitive sensor are both used for detecting a distance between the earplug 5 and an ear of a person, and both the infrared distance sensor and the capacitive sensor are electrically connected to the control module.

In this embodiment, when the earplug 5 is inserted into the ear of a person, the control module can send a first control instruction by touching and/or inputting an instruction to the touch panel through a key, the infrared distance sensor can detect the distance between the control module and the person, and at this time, a signal is transmitted to the control module. The instructions input by the touch and/or the keys can be various input instructions such as long pressing, short pressing, double clicking, sliding and the like, and the corresponding first control instruction can be a control instruction corresponding to enabling the earplug 5 to play sound, stop playing sound, previous music, next music and the like. When the earplug 5 is pulled out of the human ear and then is mutually attracted by the second magnet and the first magnet, the same input instruction transmits a signal to the control module, and the control module can send a second control instruction. For example, the instruction input by the touch and/or the key may include a plurality of input instructions such as long pressing, short pressing, double pressing, sliding and the like, and the corresponding second control instruction may be a corresponding control instruction for displaying electric quantity, time, date, switching wallpaper and the like.

The capacitive sensor has the same function as the infrared distance sensor, detects the capacitance between the earplug 5 and the human body, deduces the distance between the earplug and the human body and sends a signal to the control module.

So the effect of this embodiment lies in, when two earplug 5 mutual laminating attract, or when earplug 5 mutually laminating attract with main control storehouse 1, then can automatic stop the broadcast sound, or other control effect, degree of automation is better, strengthens user's listening experience.

As shown in fig. 1 and fig. 2, further, the shape of the main control cabin 1 is a shell-shaped structure with an inner cavity, the number of the first contact surfaces is two, the two first contact surfaces are respectively arranged on two symmetrical side surfaces of the main control cabin 1, and the first contact surface is one of a plane, an arc surface or a bending surface.

Owing to set up two earplug 5, so the first contact surface that corresponds with main control storehouse 1 sets up to two, corresponds the second contact surface that contacts an earplug 5 respectively, makes the laminating that earplug 5 can be symmetrical on the both sides wall of main control storehouse 1, and whole aesthetic property is better, and is also more convenient.

And first contact surface can be plane, cambered surface or the face of buckling, and the shape looks adaptation of second contact surface and first contact surface can realize complete contact with first contact surface seamless laminating.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. A neckphone, comprising:

the main control cabin is internally provided with a rechargeable battery, and the main control cabin is internally provided with a control assembly;

the two ends of the main coil are connected with the main control bin;

the opening and closing device comprises two ports which can be mutually inserted and separated, at least one port is a plug interface, the plug interface is electrically connected with the main control bin, the plug interface is used for charging a rechargeable battery and/or transmitting data to the main control bin, the opening and closing device is positioned on the main coil, and the main coil is disconnected when the two ports are separated and forms a closed-loop structure when the two ports are inserted; and

the earplug is electrically connected with the control component through the earplug wire, the earplug wire of the earplug is arranged on the main coil, and the control component is used for controlling the playing state of the earplug.

2. The neckphone of claim 1, wherein the control assembly comprises:

the touch panel is provided with a touch sensing component and/or a physical key, is positioned on the surface of the main control cabin, and can input instructions through touching and/or the key to control the earplug; and

and the control module is electrically connected with the touch panel.

3. The neckphone of claim 2, wherein an audio processing module is disposed within the ear bud, the audio processing module being electrically connected to the control module, the audio processing module being electrically connected to a playback module within the ear bud;

the control assembly is further provided with a Bluetooth module, and the Bluetooth module is electrically connected with the control module.

4. The neckphone of claim 2, wherein the control module is further electrically connected to a memory module, the control module is electrically connected to the jack, and the jack is further electrically connected to a rechargeable battery.

5. The neck hanging earphone as claimed in claim 2, wherein there are two earplugs, two second magnets are disposed in each of the two earplugs, two first magnets are disposed in the main control chamber and correspond to the two second magnets, respectively, the two earplugs are attracted by attraction of the second magnets, and the earplugs and the main control chamber are attracted by attraction of the second magnets and the first magnets.

6. The neckphone of claim 5, wherein the main control chamber has at least one first contact surface on a surface thereof, the earplugs have a second contact surface adapted to the first contact surface, and the main control chamber and the earplugs are engaged by the first contact surface and the second contact surface.

7. The neckphone according to claim 5, wherein a first Hall sensor is disposed in the main control chamber, a second Hall sensor is disposed in the ear plug, the first Hall sensor and the second Hall sensor are electrically connected to the control module and are configured to transmit a signal to the control module to control the playing status of the ear plug, the first Hall sensor is configured to detect the attraction between the second magnet and the first magnet, and the second Hall sensor is configured to detect the attraction between the two second magnets.

8. The neck hanging earphone according to claim 6, wherein the main control chamber has a shell-shaped structure with an inner cavity, the number of the first contact surfaces is two, the two first contact surfaces are respectively disposed on two symmetrical side surfaces of the main control chamber, and the first contact surface is one of a plane, an arc surface and a bending surface.

9. The neckphone of claim 7, wherein the first hall sensor is configured to transmit a signal to the control module to stop the earpiece from playing when the second magnet and the first magnet are attracted to each other;

or when the two second magnets are mutually attracted, the second Hall sensor is used for transmitting a signal to the control module so as to stop the playing of the earplug.

10. The neckphone according to claim 7, wherein an infrared distance sensor or a capacitive sensor is further disposed in the ear plug, the infrared distance sensor and the capacitive sensor are both used for detecting a distance between the ear plug and a human ear, the infrared distance sensor and the capacitive sensor are both electrically connected to the control module, the control module can send a first control command when the ear plug is inserted into the ear, and the control module can send a second control command when the first magnet and the second magnet are attracted to each other.

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