WO2017004873A1

WO2017004873A1 - Health management-based headset volume control method and headset

Info

Publication number: WO2017004873A1
Application number: PCT/CN2015/088567
Authority: WO
Inventors: 张贯京; 陈兴明; 葛新科
Original assignee: 深圳市华科安测信息技术有限公司; 深圳市前海安测信息技术有限公司; 深圳市易特科信息技术有限公司; 深圳市贝沃德克生物技术研究院有限公司
Priority date: 2015-07-03
Filing date: 2015-08-31
Publication date: 2017-01-12
Also published as: CN104980838A

Abstract

Disclosed is a health management-based headset volume control method, comprising the following steps: S1, a vibrating sensor collects a heartbeat frequency of a human body, converts same into an electric signal, and then transmits the electric signal to a controller; S2, the controller receives the electric signal, and judges whether the magnitude of the electric signal is lower than a pre-set value N1, if so, turn to the step S31, and if not, turn to the step S32; S31, the controller starts a sleep mode, and reduces, according to the magnitude of the electric signal, a current I received by a headset sound production unit, so as to reduce a headset volume; and S32, the controller maintains the current I received by the headset sound production unit unchanged, and maintains the headset volume unchanged, thereby facilitating adjustment of the headset volume according to a user state. The present invention also provides a headset, comprising headset receivers, audio cables, headset plugs, a vibrating sensor used to collect a heartbeat frequency, and a controller used to adjust a headset volume. The headset volume can be adjusted according to the change of the heartbeat frequency, thereby facilitating increase and improvement of the sleep quality of a user.

Description

Headphone volume control method based on health management and earphone

Technical field

The present invention relates to the field of earphones, and in particular to a method and a headphone volume control method based on health management.

Background technique

In modern society, the pace of life of people is accelerating, and patients with insomnia are gradually increasing. This type of patient population is particularly sensitive to external sounds, and listening to music has become a means of helping them fall asleep as soon as possible, but traditional audio equipment can only stop playing within the set time. If the user opens the music before going to bed, when it is about to When asleep, the stop time of the set audio equipment may not have arrived, or before the sleep, the audio equipment reaches the stop play time, and the music playback is terminated, which is very inconvenient. Moreover, when the user is in a critical state that is about to enter a sleep state, the volume of the audio device will still be in a high state, and the playback volume cannot be automatically adjusted according to the sleep state of the user, for the user's sleep and hearing system. There is a certain degree of negative impact on the speech.

Summary of the invention

The main object of the present invention is to provide a headphone volume control method based on health management, which aims to solve the problem that the volume of a conventional earphone cannot be automatically adjusted according to the sleep degree of the user. The present invention also provides an earphone according to the above method, which can collect the heartbeat frequency of the user according to the above method and adjust the volume of the earphone according to the method.

To achieve the above objective, the present invention provides a method for controlling volume of a headphone based on health management, and the method for controlling volume of a headphone based on health management includes the following steps:

S1, the vibration sensor collects the human heartbeat frequency, and converts it into an electrical signal and transmits it to the controller;

S2, the controller receives and determines whether the size of the electrical signal is lower than the preset value N1, and if so, proceeds to step S31; if not, proceeds to step S32;

S31. The controller turns on the sleep mode, and reduces the current I received by the earphone sounding unit according to the size of the electrical signal, thereby reducing the volume of the earphone;

S32. The controller maintains the current I received by the earphone sounding unit unchanged, and the volume of the earphone does not change.

Preferably, after the step S31, the health management-based earphone volume control method further comprises the following steps:

S4, the controller further determines whether the electrical signal size is lower than the preset value N2, and if so, proceeds to step S41; if not, proceeds to step S32;

S41: The controller adjusts the current I to the earphone sounding unit to zero;

The above N2 < N1.

Preferably, the vibration sensor collects a heartbeat frequency at a carotid artery or a chest cavity of a human body.

Preferably, the step S31 is replaced by:

S31', the controller turns on the sleep mode, and adjusts the current I received by the earphone sounding unit in a mode positively correlated with the electrical signal.

The present invention also provides an earphone comprising a earphone earpiece, an audio line and a headphone plug, wherein the earphone earpiece is provided with a sounding unit, the earphone further comprising a vibration sensor, a wire and a power for receiving the vibration sensor And a controller for adjusting a magnitude of a current received by the sounding unit according to the electrical signal, wherein the controller is disposed on the audio line, and the vibration sensor is connected to the controller by a wire.

Preferably, the earphone earphone comprises a left earpiece and a right earpiece, and a blocking block is arranged on the audio line, and the audio wire is divided into two from the blocking block to the earphone earpiece, respectively The left earpiece and the right earpiece, the controller is disposed in the blocking block, and the strap is fixed on the blocking block.

Preferably, the earphone further comprises a belt member, one end of the belt member is fixed on the earphone, and the vibration sensor is disposed on the belt member.

Preferably, the strip is fixed to the controller, and the wire is disposed on the strip.

Preferably, the strip material is one of polyester, cotton and silica gel.

Preferably, the vibration sensor is provided in a sheet shape.

The technical solution of the present invention adopts the above technical solution, and the technical effect is that: according to the method for adjusting the volume of the earphone according to the heartbeat frequency of the human body, the invention can collect the heartbeat frequency of the user, according to the heartbeat frequency of the human body during sleep and the heartbeat frequency of the awake state. Differently, after the sleep phase enters the sleep phase, the heartbeat frequency is slowed according to the sleep state, and accordingly, the controller controls the magnitude of the current signal input to the earphone earpiece to control the volume of the earphone. In the present invention, the controller is first set in the controller. The preset value of the received vibration sensor is matched with the electrical signal size of the heartbeat frequency of the human body in the calm state collected by the vibration sensor, and the vibration sensor collects the heartbeat frequency of the human body and converts it into an electrical signal for outward transmission, and the controller receives the vibration. The electrical signal sent by the sensor is compared with the preset value. If the value is greater than the preset value, the user is in the awake state, the controller does not work, and the volume of the earphone does not change; if it is less than the preset value, Explain that the user enters a sleep state, after which the controller lowers the sounding unit that is connected to the earphone Stream I, which can reduce the headphone volume effect, beneficial to the user to quickly enter a deep sleep and get better sleep quality, ease of use.

The invention also provides an earphone, comprising a earphone earpiece, an audio line, a headphone plug, a vibration sensor and a controller, wherein a sounding unit is arranged in the earpiece earpiece, and the vibration sensor is used for collecting the heartbeat frequency of the human body and converting it into an electrical signal, and controlling The device is configured to receive an electrical signal of the vibration sensor and adjust the current received by the sounding unit according to the electrical signal. The controller is disposed on the audio line, and the vibration sensor and the controller are connected by wires, and the heartbeat frequency of the human body is collected by the vibration sensor. It is converted into an electrical signal and transmitted to the controller. The controller adjusts the volume of the earphone according to the electrical signal, and can adjust the volume of the earphone according to the change of the heartbeat frequency, which is beneficial to the improvement and improvement of the user's sleep quality.

DRAWINGS

1 is a schematic flow chart of a first embodiment of a method for controlling volume of a headphone based on health management according to the present invention; 2 is a schematic flowchart of a second embodiment of a method for controlling volume of a headphone based on health management according to the present invention; FIG. 3 is a schematic flowchart of a third embodiment of a method for controlling volume of a headphone based on health management according to the present invention; 4 is a schematic view showing the overall structure of a preferred embodiment of the earphone of the present invention.

The implementation, functional features, and advantages of the present invention will be further described in conjunction with the embodiments.

detailed description

It is understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The present invention provides a method for controlling volume of a headphone based on health management. Referring to FIG. 1 , FIG. 1 is a schematic flowchart of a first embodiment of a method for controlling volume of a headphone based on health management in the present invention. In the first embodiment of the present invention, The method for controlling the volume of the earphone based on health management includes the following steps: S1, the vibration sensor collects the human heartbeat frequency, and converts it into an electrical signal and transmits it to the controller; S2, the controller receives and determines whether the size of the electrical signal is lower than the preset value N1, and if so, proceeds to step S31; if not, proceeds to step S32; S31. The controller turns on the sleep mode, and reduces the current I received by the earphone sounding unit according to the size of the electrical signal, thereby reducing the volume of the earphone; S32. The controller maintains the current I received by the earphone sounding unit unchanged, and the volume of the earphone does not change.

The method for controlling volume of the earphone based on health management in the invention controls the volume of the earphone according to the change of the physiological state (awake state and sleep state) of the user. Specifically, the vibration sensor first collects the heartbeat frequency of the human body and converts it into The electrical signal is transmitted to the controller, and the controller receives the electrical signal and determines whether the size of the electrical signal is lower than the preset value N1 of the controller. If the electrical signal sent by the vibration sensor to the controller is lower than the preset of the controller The value N1 indicates that the user has gradually changed from the awake state to the sleep state, and the controller turns on the sleep mode, and reduces the current I received by the earphone sounding unit according to the size of the electrical signal, thereby reducing the volume of the earphone; if the vibration sensor is directed to the controller The transmitted electrical signal is higher than the preset value N1 of the controller, indicating that the user is still in the awake state, and the controller maintains the current I received by the earphone sounding unit unchanged, and the volume of the earphone does not change.

The invention adjusts the volume of the earphone according to the heartbeat frequency of the human body. When the user is in the awake state, the heartbeat frequency is higher. Generally, the healthy adult waking state has a heartbeat frequency of seventy to eighty times per minute, and the sleep state is generally lower than seventy. Every minute, the value of the electrical signal output by the vibration sensor is set to Rn. If the vibration signal receives the heartbeat frequency for 70 times per minute, the converted electrical signal value is R1, and the preset value of the controller N1 can be It is set to be the same as R1. When Rn is less than N1, it indicates that the user has entered the sleep state, the controller turns on the sleep mode, and reduces the current I received by the earphone sounding unit, thereby reducing the volume of the earphone; when Rn is greater than N1, the user In the awake state, the controller maintains the current I received by the earphone sounding unit unchanged, and the volume of the earphone does not change. The invention can help the user to quickly enter a deep sleep state and obtain better sleep quality, and is very convenient to use.

Based on the first embodiment of the above-described health management-based earphone volume control method in the present invention, the present invention further provides a second embodiment of a health management-based earphone volume control method, which is shown in FIG. Based on the embodiment, after the step S31, the health management-based headset volume control method further includes the following steps:

S4, the controller further determines whether the electrical signal size is lower than the preset value N2, and if so, proceeds to step S41; if not, proceeds to step S32; S41: The controller adjusts the current I to the earphone sounding unit to zero; the above N2 < N1.

In this embodiment, based on the first embodiment, the controller further receives and determines whether the magnitude of the electrical signal output by the vibration sensor is lower than a preset value N2, and if so, the controller adjusts the current I to the earphone sounding unit. Zero, that is, the headphone sound is turned off to prevent the music from disturbing the user's sleep; if not, the controller maintains the current I received by the headphone sounding unit unchanged, the headphone volume does not change, and continues to maintain a lower volume for playback.

In healthy adults, the heartbeat frequency is low in deep sleep state, and the value of the electrical signal output by the vibration sensor is set to Rn. If the vibration signal receives the heartbeat frequency sixty times per minute, the converted electrical signal value is R2, and the controller can be used. The preset value N2 is set to be the same as R2. When Rn is smaller than N2, it indicates that the user has entered the deep sleep state, and the controller adjusts the current I to the earphone sounding unit to zero, thereby adjusting the volume of the earphone to Zero, turn off the playback of the headset; when Rn is greater than N2, the user does not enter deep sleep, the controller maintains the current I received by the earphone sounding unit unchanged, and the volume of the earphone does not change. The invention can help the user to quickly enter the deep sleep state, and turn off the headphone volume after entering the depth state to obtain better sleep quality, which is very convenient to use.

Based on the first embodiment of the above-described health management-based earphone volume control method in the present invention, the present invention further provides a third embodiment of a health management-based earphone volume control method, which is shown in FIG. 3 and includes the following steps. , S1, the vibration sensor collects the human heartbeat frequency, and converts it into an electrical signal and transmits it to the controller; S2, the controller receives and determines whether the size of the electrical signal is lower than the preset value N1, and if so, proceeds to step S31; if not, proceeds to step S32; S31', the controller turns on the sleep mode, and adjusts the current I received by the earphone sounding unit in a mode positively correlated with the electrical signal; S32. The controller maintains the current I received by the earphone sounding unit unchanged, and the volume of the earphone does not change.

Compared with the first embodiment, this embodiment is different in that step S31 in the first embodiment is replaced by step S31', and the vibration sensor collects the heartbeat frequency of the human body and converts it into an electrical signal and transmits it to the controller. The controller receives the electrical signal and determines whether the size of the electrical signal is lower than the preset value N1 of the controller. If the electrical signal sent by the vibration sensor to the controller is lower than the preset value N1 of the controller, the user has From the awake state to the sleep state, the controller turns on the sleep mode, and adjusts the current I received by the earphone sounding unit in a mode positively correlated with the electrical signal, thereby reducing the volume of the earphone according to the positive correlation of the user's heartbeat frequency; The electrical signal sent by the vibration sensor to the controller is higher than the preset value N1 of the controller, indicating that the user is still in the awake state, and the controller maintains the current I received by the earphone sounding unit unchanged, and the volume of the earphone does not change. In this embodiment, the controller adjusts the current received by the earphone sounding unit in a mode positively correlated with the electrical signal, and adjusts the volume of the earphone according to the magnitude of the electrical signal output by the vibration sensor, and the volume control of the earphone is more fine. More humane.

In the above various embodiments of the health management-based earphone volume control method in the present invention, in order to ensure that the heartbeat frequency of the human body received by the vibration sensor is more accurate, the vibration sensor collects the heartbeat frequency at the carotid artery or the chest cavity of the human body.

The present invention also provides an earphone using the volume control method of the above-mentioned health management-based earphone. The overall structure of the earphone is as shown in FIG. 4, and includes an earphone earpiece, an audio cable 2 and a headphone plug 1, and is provided in the earphone earpiece. a sounding unit, the earphone further comprising a vibration sensor 7, a wire 6 and a controller 3 for receiving an electrical signal of the vibration sensor 7 and adjusting the magnitude of the current received by the sounding unit according to the electrical signal, the control The device 3 is disposed on the audio line 2, and the vibration sensor 7 is connected to the controller 3 via a wire 6.

The earphone receiver and the earphone plug 1 are connected by an audio cable 2, and the controller 3 is disposed on the audio cable 2 for receiving an electrical signal obtained by the vibration sensor 7 to collect the heartbeat frequency of the human body, and determining whether the size of the electrical signal is low. For the preset value of the controller 3, if the electrical signal sent by the vibration sensor 7 to the controller 3 is lower than the preset value of the controller 3, indicating that the user has gradually transitioned from the awake state to the sleep state, the controller 3 turns on the sleep mode. According to the size of the electrical signal, the current I received by the earphone sounding unit is reduced, thereby reducing the volume of the earphone; if the electrical signal sent by the vibration sensor 7 to the controller 3 is higher than the preset value of the controller 3, the user is thrown at In the awake state, the controller 3 maintains the current I received by the earphone sounding unit unchanged, and the volume of the earphone does not change.

The earphone of the invention adjusts the volume of the earphone by collecting the heartbeat frequency of the human body, and can automatically reduce the volume of the earphone after the user enters the sleep state, which helps the user to quickly enter deep sleep, and is very intelligent, convenient and user-friendly to use.

Based on the above embodiment, in one embodiment, the earphone further includes a belt member 5, one end of the belt member 5 is fixed on the earphone, and the vibration sensor 7 is disposed on the On the belt member 5.

In order to further facilitate the vibration sensor 7 to collect the heartbeat frequency of the user, a belt member 5 is disposed on the earphone, and the vibration sensor 7 is disposed on the belt member 5. In use, the belt member 5 can be moved to make the vibration sensor 7 thereon. Attach it to a suitable part of the body (such as the carotid or thoracic cavity) to collect more accurate heart rate data.

In one of the embodiments, the band member 5 is fixed to the controller 3, and the wire 6 is disposed on the band member 5.

The controller 3 of the present invention may be formed in a solid block shape, the constituent elements of which are disposed inside, the one end of the strip member 5 is fixed to the controller 3, and the other end portion is a free end, which may be strip-shaped. The shape of the piece 5 is artificially moved.

In one embodiment, the earpiece earphone comprises a left earpiece 8 and a right earpiece 9, on the audio line 2, a blocking block 4 is provided, and the audio wire 2 is from the blocking block 4 to the The earphone is divided into two, respectively leading to the left earpiece 8 and the right earpiece 9, the controller 3 is disposed in the blocking block 4, and the strip 5 is fixed on the blocking block. 4 on.

In the present invention, for the earphone having the blocking block 4, the controller 3 can also be disposed inside the blocking block 4 to reduce the overall weight and volume of the earphone, and at this time, one end of the band member 5 can be fixed at the barrier. On block 4, the other end acts as a free end.

The material of the strip member 5 is preferably one of polyester, cotton, and silica gel, and is not placed in the carotid artery or the chest cavity of the human body during use.

The vibration sensor 7 is preferably provided in a sheet shape, and similarly, the sheet-shaped vibration sensor 7 is disposed on the belt member 5 of a soft material, and is more comfortable in use.

The invention collects the heartbeat frequency of the user according to the difference between the human body sleep time and the heartbeat frequency during waking, gradually adjusts the headphone volume change according to the change of the heartbeat frequency and turns off the power when the user is completely asleep, which is more beneficial to the user's sleep quality. The improvement and improvement, while the earphone is made of silicone rubber with strong skin compatibility, and has excellent sound insulation effect.

The above are only the preferred embodiments of the present invention, and are not intended to limit the scope of the invention, and the equivalent structure or equivalent process transformations made by the description of the present invention and the drawings are directly or indirectly applied to other related technical fields. The same is included in the scope of patent protection of the present invention.

Claims

A method for controlling volume of a headphone volume based on health management, wherein the method for controlling volume of a headphone based on health management comprises the following steps:

S1, the vibration sensor collects the human heartbeat frequency, and converts it into an electrical signal and transmits it to the controller;

S2, the controller receives and determines whether the size of the electrical signal is lower than the preset value N1, and if so, proceeds to step S31; if not, proceeds to step S32;

S31. The controller turns on the sleep mode, and reduces the current I received by the earphone sounding unit according to the size of the electrical signal, thereby reducing the volume of the earphone;

S32. The controller maintains the current I received by the earphone sounding unit unchanged, and the volume of the earphone does not change.
The health management-based headphone volume control method according to claim 1, wherein after the step S31, the health management-based headphone volume control method further comprises the following steps:

S4, the controller further determines whether the electrical signal size is lower than the preset value N2, and if so, proceeds to step S41; if not, proceeds to step S32;

S41: The controller adjusts the current I to the earphone sounding unit to zero;

The above N2 < N1.
The health management-based earphone volume control method according to claim 1, wherein the vibration sensor collects a heartbeat frequency at a carotid artery or a chest cavity of a human body.
The health management-based headphone volume control method according to claim 1, wherein the step S31 is replaced by:

S31', the controller turns on the sleep mode, and adjusts the current I received by the earphone sounding unit in a mode positively correlated with the electrical signal.
An earphone comprising an earphone earpiece, an audio cable and a headphone plug, wherein the earphone earpiece is provided with a sounding unit, wherein the earphone further comprises a vibration sensor, a wire and a power for receiving the vibration sensor And a controller for adjusting a magnitude of a current received by the sounding unit according to the electrical signal, wherein the controller is disposed on the audio line, and the vibration sensor is connected to the controller by a wire.
The earphone according to claim 5, wherein said earphone earphone comprises a left earpiece and a right earpiece, said audio line being provided with a blocking block, said audio line being from said blocking block to said The earphone is divided into two, respectively leading to the left earpiece and the right earpiece, the controller is disposed in the blocking block, and the band is fixed on the blocking block.
The earphone according to claim 5, wherein said earphone further comprises a belt member, said belt member being fixed at one end to said earphone, said vibration sensor being disposed in said belt shape On the piece.
The earphone according to claim 7, wherein said earphone earphone comprises a left earpiece and a right earpiece, said block of audio lines being provided with a blocking block, said audio line being from said blocking block to said The earphone is divided into two, respectively leading to the left earpiece and the right earpiece, the controller is disposed in the blocking block, and the band is fixed on the blocking block.
The earphone according to claim 7, wherein said band member is fixed to said controller, and said wire is disposed on said band member.
The earphone according to claim 9, wherein said earphone earphone comprises a left earpiece and a right earpiece, said audio line being provided with a blocking block, said audio line being from said blocking block to said The earphone is divided into two, respectively leading to the left earpiece and the right earpiece, the controller is disposed in the blocking block, and the band is fixed on the blocking block.
The earphone according to claim 10, wherein said band member is made of one of polyester, cotton and silicone.
The earphone according to claim 11, wherein said vibration sensor is provided in a sheet shape.