CN116489556A - Double-point touch bone conduction earphone with position correction function - Google Patents

Abstract

The invention relates to the technical field of bone conduction headphones, and particularly discloses a double-point touch bone conduction headphone with a position correcting function, which comprises a vibrator end and a control part for controlling the headphone, wherein the control part is provided with a group of controllers which can control the headphone only by touching at the same time; the earphone is controlled through the simultaneous touch of a set of controllers, particularly, after a user simultaneously touches a touch area, the touch area generates deformation to contact with the touch conductive cloth, the touch conductive cloth is pressed down to contact with the touch bullet needle, the touch bullet needle sends touch analog signals to be accepted by signal processing equipment, a touch chip connected with the signal processing equipment executes preset operation, namely the operation of a controller machine and the like according to the trigger signals, namely the operation of the earphone in the application needs to simultaneously touch two controllers to take effect, the probability of false triggering is avoided, and user experience can be effectively improved.

Description

Double-point touch bone conduction earphone with position correction function

Technical Field

The invention relates to the technical field of bone conduction headphones, in particular to a double-point touch bone conduction headphone with a position correcting function.

Background

Bone conduction is a sound conduction mode, i.e. converting sound into mechanical vibrations of different frequencies, transmitting sound waves through the skull, bone labyrinth, inner ear lymph, screw, auditory center of a person.

Compared with the classical air conduction mode of generating sound waves through the vibrating diaphragm, the bone conduction omits a plurality of sound wave transmission steps, can realize clear sound restoration in a noisy environment, and the sound waves cannot influence others due to diffusion in the air. Bone conduction techniques are classified into bone conduction speaker techniques and bone conduction microphone techniques:

(1) Bone conduction speaker technology is used for speech transmission, i.e. listening to sound. The air conduction loudspeaker converts the electric signal into sound wave (vibration signal) and transmits the sound wave (vibration signal) to the auditory nerve. While bone conduction speakers are acoustic waves (vibration signals) converted from electrical signals, which are transmitted directly through bone to the acoustic nerve. The transmission medium of sound waves (vibration signals) is different.

(2) Bone conduction microphone technology is used for the reception of speech, i.e. the collection of sound. The air conduction speech is the transmission of sound waves through the air to the microphone, while the bone conduction speech is directly transmitted through the bone.

Headphones manufactured using these bone conduction techniques are referred to as bone conduction headphones, and are also referred to as bone conduction headphones, bone induction headphones, bone conduction headphones, and bone sensing headphones.

In the existing bone conduction earphone, a controller is arranged on the earphone to control the opening and closing of the earphone, but the earphone with a single controller is large in motion amplitude during walking and movement when being worn, so that the controller is easy to be closed, started or perform other operations accidentally without touching.

Disclosure of Invention

The invention aims to provide a double-point touch bone conduction earphone with a position correcting function, which solves the following technical problems:

(1) How to avoid the problem that a single controller is easy to touch by mistake when wearing the earphone.

The aim of the invention can be achieved by the following technical scheme:

the double-point-touch bone conduction earphone with the position correcting function is characterized by comprising a vibrator end and a control part for controlling the earphone, wherein a group of controllers which can control the earphone only by touching the two controllers simultaneously are arranged on the control part.

As a further scheme of the invention: the number of the controllers is two.

As a further scheme of the invention: the controller comprises a touch area, touch conductive cloth and touch pins, wherein a main board is arranged on the inner side of the control part, the touch pins are electrically connected to the main board, a touch chip for receiving touch signals generated by the touch pins is arranged on the main board, the touch conductive cloth is arranged between the touch pins and the touch area, and the touch area is a pressable part on the shell of the control part.

As a further scheme of the invention: the touch area is a key penetrating through the control part shell.

As a further scheme of the invention: the control part shell comprises a joint part close to the vibrator end, the joint part is integrally of an arc-shaped structure with two tilted ends and a concave middle part, and an induction device for detecting whether the joint part is in contact with skin or not is arranged in the middle of the joint part.

As a further scheme of the invention: the control part shell comprises a side panel far away from the vibrator end and a bottom panel downwards when the earphone is clamped on the outer ear, and the controller is respectively arranged on the side panel and the bottom panel.

As a further scheme of the invention: the control part is connected with the vibrator end through a bending arm with elasticity.

The invention has the beneficial effects that:

(1) According to the method, the earphone is controlled through simultaneous touch of a set of controllers, specifically, after a user simultaneously touches a touch area, deformation contact touch conductive cloth is generated in the touch area, the touch conductive cloth is in contact with a touch bomb needle in a downward pressure mode, touch analog signals sent by the touch bomb needle are accepted by signal processing equipment, a touch chip connected with the signal processing equipment executes preset operation according to the trigger signals, namely, operation of the controller and the like, namely, the earphone is effective only when the two controllers are required to be simultaneously touched in the operation of the earphone, false triggering probability is avoided, and user experience can be effectively improved;

(2) The casing that is close to the vibrator end with the control portion sets up to the sunken curved surface in both ends perk middle part in this application to be equipped with induction system in this curved surface middle part, the curved surface shell of control portion can laminate the concha profile on the one hand and be convenient for fix the earphone, this application is in the concha intracavity when using in addition, the control portion is located the arc protruding department at concha back, laminate and improve fixed effect through making curved surface shell and concha back, wear the position too high or because of wearing the improper earphone and when leading to the earphone to slide in strenuous exercise, induction system in curved surface middle part can break away from the concha skin, the earphone can suspend the work, thereby remind the customer, can avoid the fixed bad earphone of leading to the earphone to drop the damage on the one hand, on the other hand also can avoid the tone quality decline problem because of wearing the position bad results in.

Drawings

The invention is further described below with reference to the accompanying drawings.

FIG. 1 is a schematic diagram of the overall structure of the earphone of the present invention;

FIG. 2 is an exploded view of the earphone of the present invention;

fig. 3 is a side view of the earphone of the present invention;

FIG. 4 is a schematic diagram of the operation of a controller according to one embodiment of the invention.

In the figure: 1. a control unit; 2. a vibrator end; 3. bending arms; 11. a touch area; 12. touching the conductive cloth; 13. touching the spring needle; 14. a touch chip; 15. an induction device.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-3, the present invention is a dual-touch bone conduction earphone with a position correcting function, which includes a vibrator end 2 and a control portion 1 for controlling the earphone, wherein the control portion 1 is provided with a group of controllers for controlling the earphone only by touching at the same time.

In this embodiment, the vibrator end 2 is internally provided with a vibration unit for transmitting vibration to the bone structure and enabling a user to receive sound signals through bone conduction, and the control part 1 is internally provided with a series of control elements such as a main board and physical keys, and the vibration unit, the control elements and the physical keys have more mature schemes in the prior art, so that the description is omitted; in order to achieve the effect of avoiding false touch, the present embodiment sets a group of controllers for controlling the earphone, and when the earphone is controlled, all the controllers need to be touched at the same time to control the earphone, and the control content may include, but is not limited to, functions of controlling the earphone, adjusting volume, switching songs, pausing, fast forwarding and fast rewinding, etc.

Specifically, the number of controllers is two.

Referring to fig. 2 and 4, in the present embodiment, after the operation difficulty and the false touch preventing effect are combined, the present embodiment uses two controllers to control the earphone at the same time, but more groups may be provided in order to pursue a better false touch preventing effect, but this inevitably results in an increase in the operation difficulty, but is still technically feasible.

Specifically, the controller includes touch area 11, touch conductive cloth 12 and touch bullet needle 13, and control portion 1 inboard is equipped with the mainboard, and electric connection has touch bullet needle 13 on the mainboard, is equipped with the touch chip 14 that is used for accepting touch bullet needle 13 to produce the touch signal on the mainboard, is equipped with touch conductive cloth 12 between touch bullet needle 13 and the touch area 11, and touch area 11 is the part of can pressing on the control portion 1 casing.

Referring to fig. 2, in this embodiment, the specific structure of the controller is further limited by the earphone, specifically, the application sets a touch area 11, where the touch area 11 may be made of a material with elasticity such as plastic, a flexible film, etc., and after being slightly pressed, a certain deformation is generated, the touch area 11 is deformed and then presses the touch conductive cloth 12, and after being pressed, it contacts the touch elastic needle 13, and further makes the touch elastic needle 13 send out a touch analog signal, and the signal processing device (not shown in the figure, but the technology is very mature, and is not repeated herein) determines the type of sending out a trigger signal to the touch chip according to the number, frequency, interval, etc. of the touch analog signals sent out by the touch elastic needle 13, and the touch chip performs a corresponding operation on the earphone after receiving the trigger signal, thereby implementing control of the earphone. It is not difficult to determine that the controller in this embodiment is used to collect information about whether the user touches the earphone, the touch frequency, the time interval, etc., so that even if the above method is not adopted, it is within the scope of the present invention to adopt a sensor, other machine or circuit structure, so long as the same effect is achieved.

Specifically, the touch area 11 is a key penetrating the casing of the control section 1.

In this embodiment, it is considered that the earphone cannot be directly observed by the user when worn, so in order to improve the sense of immersion and touch feedback, a key penetrating the control portion 1 is provided in the touch area 11, the touch conductive cloth is pressed by the position of the key to make contact with the touch pin, and a vibration unit or the like can be added to the key to further increase feedback so as to prompt the user whether the key is pressed.

Specifically, the control portion 1 casing includes the laminating portion that is close to oscillator end 2, and laminating portion is whole to be the sunken arc structure in both ends perk middle part, and laminating portion middle part is equipped with and is used for detecting whether with skin contact's induction system 15, induction system 15 and touching chip electric connection.

Referring to fig. 3, in this embodiment, the attaching portion of the control portion 1 near the vibrator end 2 is set to be a concave curved surface, which is mainly because, when the present invention is in use, the vibrator end 2 is located in the concha cavity, the bending arm 3 passes over the edge of the outer ear, the control portion 1 is located at the back of the concha cavity, the attaching portion faces the bending position at the back of the outer ear, and the attaching portion is set to be a curved surface corresponding to the attaching portion, so that the outer ear can be effectively attached, thereby improving comfort and wearing firmness; in addition, the sensing device 15 is further disposed in the middle of the attaching portion, the sensing device 15 may be disposed as a sensing element such as mechanical sensing, bioelectric sensing or optical sensing, and whether the attaching portion is in contact with a human body can be judged by means of pressure, an electrical signal or an optical signal, when the position of the earphone is correct, the earphone can work normally, but when the position of the earphone is too high, too low or the mode is incorrect, the sensing device 15 can alarm when the earphone cannot be identified correctly, the alarm mode may be that the earphone is closed, a specific sound or vibration is emitted, and the like, the user is reminded in sequence to adjust in time, so that the risk that the earphone falls due to the decrease of the fixing effect caused by the incorrect wearing position of the earphone is avoided, and the position of the vibrator end 2 is ensured to be determined, thereby achieving the best sound quality requirement.

Specifically, the control part 1 casing includes a side panel far away from the vibrator end 2 and a bottom panel facing downwards when the earphone is clamped to the outer ear, and the controller is respectively arranged on the side panel and the bottom panel.

Referring to fig. 4, in this embodiment, in order to facilitate the user to control the earphone, the controller is respectively provided with a side panel far away from the vibrator end 2 and a bottom panel facing downwards, which are convenient to contact simultaneously, when in use, the user can touch the bottom panel with thumb and the side panel with index finger, so that the controller is provided to conform to the habit and ergonomics of human body, and the user can operate conveniently.

Specifically, the control unit 1 and the transducer end 2 are connected by a flexible arm 3.

In this embodiment, in order to improve the fixing effect of the earphone, the control portion 1 and the vibrator end 2 are connected by using the flexible bending arm 3, and the earphone can be fixed by the flexible bending arm 3.

The working principle of the invention is as follows: the earphone is controlled by the simultaneous touch of a set of controllers, specifically, after a user simultaneously touches the touch area 11, the touch area 11 generates deformation to contact the touch conductive cloth 12, the touch conductive cloth 12 is in downward contact with the touch pin 13, the touch pin 13 sends out a touch simulation signal to be accepted by the signal processing equipment, and the touch chip 14 connected with the signal processing equipment executes preset operation, namely operation of a controller machine and the like according to the trigger signal, namely the operation of the earphone in the application needs to touch two controllers simultaneously to be effective, so that the probability of false triggering is avoided, and the user experience can be effectively improved;

the utility model provides a shell setting up the control portion 1 into the sunken curved surface in both ends perk middle part near vibrator end 2 in this application to be equipped with induction system 15 at this curved surface middle part, the curved surface shell of control portion 1 can laminate the outer ear profile on the one hand and be convenient for fix the earphone, this application is in the concha intracavity in addition, vibrator end 2 is located the arc protruding department at outer ear back when using, through making curved surface shell and outer ear back laminating and improve fixed effect, wear the position too high or when leading to the earphone to slide in strenuous exercise because of wearing improperly, induction system 15 at curved surface middle part can break away from outer ear skin, the earphone can suspend work, thereby remind the customer, on the one hand can avoid earphone fixed bad to lead to the earphone to drop the damage, on the other hand also can avoid the tone quality decline problem because of wearing the position bad lead to.

The foregoing describes one embodiment of the present invention in detail, but the description is only a preferred embodiment of the present invention and should not be construed as limiting the scope of the invention. All equivalent changes and modifications within the scope of the present invention are intended to be covered by the present invention.

Claims (7)

1. The double-point touch bone conduction earphone with the position correction function is characterized by comprising an oscillator end (2) and a control part (1) for controlling the earphone, wherein a group of controllers which can control the earphone only by touching the earphone simultaneously are arranged on the control part (1).

2. The two-touch bone conduction headset with position correction function according to claim 1, wherein the number of controllers is two.

3. The two-point touch bone conduction headset with the position correction function according to claim 2, wherein the controller comprises a touch area (11), a touch conductive cloth (12) and a touch spring needle (13), a main board is arranged on the inner side of the control part (1), the touch spring needle (13) is electrically connected to the main board, a touch chip (14) for receiving the touch spring needle (13) to generate a touch signal is arranged on the main board, the touch conductive cloth (12) is arranged between the touch spring needle (13) and the touch area (11), and the touch area (11) is a pressable part on a shell of the control part (1).

4. A two-touch bone conduction headset with position correction according to claim 3, characterized in that the touch area (11) is a key penetrating the housing of the control part (1).

5. The dual-touch bone conduction headset with the position correction function according to claim 3, wherein the control part (1) shell comprises a joint part close to the vibrator end (2), the joint part is integrally of an arc structure with two tilted ends and a concave middle part, the middle part of the joint part is provided with a sensing device (15) for detecting whether the joint part is in contact with skin or not, and the sensing device (15) is electrically connected with the touch chip.

6. The two-point-touch bone conduction headset with the position correcting function according to claim 2, wherein the control part (1) shell comprises a side panel far away from the vibrator end (2) and a bottom panel facing downwards when the headset is clamped on the outer ear, and the controller is respectively arranged on the side panel and the bottom panel.

7. The two-point-touch bone conduction headset with a position correction function according to claim 1, wherein the control part (1) and the vibrator end (2) are connected through a curved arm (3) with elasticity.