Bone Conduction-based Bluetooth Wireless Riding Helmet

Abstract

The disclosure relates to a bone conduction-based Bluetooth wireless riding helmet comprising a helmet body, a regulator at an interior of the helmet body, a brim at a front end of the helmet body, and a drawstring connecting two sides of a bottom of the helmet and the drawstring is fixed on the helmet through a quick release buckle; wherein an interior of the helmet body is provided with a removable bone conductor that is electrically connected with a power system and a control system; wherein the control system is electrically connected with a regulating device on the drawstring. The disclosure has the following beneficial effects. On the bone conduction-based helmet, a bone conduction-based vibrator sound source is embedded on each side of the helmet and perfectly integrated with the helmet, so that sounds can be clearly heard even when both ears of a rider are covered and even when it is used in a noisy environment.

Claims

1. A bone conduction-based Bluetooth wireless riding helmet comprising a helmet body, a regulator at an interior of the helmet body, a brim at a front end of the helmet body, and a drawstring connecting two sides of a bottom of the helmet and the drawstring is fixed on the helmet through a quick release buckle; wherein an interior of the helmet body is provided with a removable bone conductor that is electrically connected with a power system and a control system; wherein the control system is electrically connected with a regulating device on the drawstring.

2. The bone conduction-based Bluetooth wireless riding helmet according to claim 1, wherein the interior of the helmet body is provided with two bone conductors installed on a left side and a right side on the helmet body.

3. The bone conduction-based Bluetooth wireless riding helmet according to claim 1, wherein the bone conductor is set at a location inside the helmet corresponding to a forehead area of a human body.

4. The bone conduction-based Bluetooth wireless riding helmet according to claim 1, wherein the interior of the helmet body is provided with a fixing mount, and the bone conductor is installed on the fixing mount.

5. The bone conduction-based Bluetooth wireless riding helmet according to claim 1, wherein the regulating device is provided with a key to adjust a volume and a key for function selection.

6. The bone conduction-based Bluetooth wireless riding helmet according to claim 1, wherein the regulating device is provided with a microphone.

7. The bone conduction-based Bluetooth wireless riding helmet according to claim 1, wherein the control system is provided with a Bluetooth device and a multimedia communication device.

8. The bone conduction-based Bluetooth wireless riding helmet according to claim 1, wherein the control system is configured to convert an acoustic signal into a vibratory signal and the vibratory signal is configured to be transmitted to the bone conductor.

9. The bone conduction-based Bluetooth wireless riding helmet according to claim 8, wherein after the bone conductor receives the vibratory signal, the bone conductor is configured to cause a resonation of the helmet to facilitate a human wearing the helmet to receive a sound transmission.

Description

BRIEF DESCRIPTION OF THE FIGURES

[0012] FIG. 1, FIG. 2 and FIG. 3 are the general assembly effect drawings of the disclosed embodiments.

[0013] FIG. 4 is the assembly drawing of the disclosure's bone conduction device and helmet body.

DETAILED DESCRIPTION

[0014] Further specific explanations of the disclosure are provided below in combination with the appended drawings. The disclosure relates to a bone conduction-based Bluetooth wireless riding helmet comprising a helmet body 1, a regulator 2 at an interior of the helmet body, a brim 3 at the front end of the helmet body 1 and a drawstring 4 connecting two sides of a bottom of the helmet and the drawstring fixed onto the helmet through a quick release buckle 5, wherein an interior of the helmet body 1 is provided with a removable bone conductor 6 that is electrically connected with a power system and a control system, and the control system is electrically connected a the regulating device 8 on the drawstring 4.

[0015] The interior of the helmet body 1 is provided with two bone conductors 6 installed on a left side and a right side on the helmet body 1.

[0016] The bone conductors 6 are set inside the helmet, corresponding to a forehead area of a human body.

[0017] An interior of the helmet body 1 is provided with a fixing mount 7, and the bone conductors are installed the fixing mount.

[0018] A regulating device 8 is set with a key 81 to adjust a volume and a key 82 for function selection.

[0019] The regulating device 8 is also provided with a microphone.

[0020] The control system is provided with Bluetooth device and multimedia communication device.

[0021] Working principle: Before using the helmet, its power system must be charged; the residual battery amount of the power system can be known from the power indicator inside the control system. Cellphone, music player and other devices can be paired with the Bluetooth system inside the helmet based on Bluetooth technology, and after that the helmet can be worn on a head. To be specific, adopting the Bluetooth wireless technology can avoid the interference with the users' riding activity by the signal cord used in traditional technologies.

[0022] In the actual use process, a head of a human body comes into contact with bone conductors; the control system converts acoustic signals into vibratory signals, and the vibratory signals are transmitted to the bone conductor. After the bone conductor receives the vibratory signal, the bone conductor is configured to cause a resonation of the helmet to facilitate a human wearing the helmet to receive a sound transmission. The resonation of the helmet may cause the head bone that comes into contact to act as the medium of sound transmission, through which sounds are transmitted to the auditory nerve. Compared with the air conduction technology adopted by ordinary microphones or loudspeakers, this technology can achieve a higher level of comfort for the users, and realize clear voice communication in noisy environments without influencing the perception of the surrounding environmental information by the users, thus to effectively improve riding safety. Furthermore, to make convenience for the users to perform volume regulation, function selection and other operations during the riding process, the disclosure has also designed a regulating device on the drawstring 4. The regulating device 8 consists of volume +/−key 81 and function selection key 82. It can also be provided with other functions by the manufacturer in production according to the actual conditions, the unnecessary details of which will not be provided here.

[0023] Displayed and described above are the basic principle, main characteristics and advantages of the disclosure. It should not be difficult for those with ordinary skills in the art to understand that the disclosure is not limited by the above example, that what is described above is only the principle of the disclosure, and that is, without departing away from the spirit or scope of the disclosure, the disclosure may have various variations and improvements (like the sectional shape of the guide rail, the material and structure of noise reduction gaskets, etc.), all of which shall fall within the scope of the disclosure to be protected.