Flip-type gyroscopic earphone
By introducing a three-axis micromechanical digital accelerometer sensor and other components into Bluetooth headsets, the problem of the Hall sensor's limited functionality has been solved, enabling a rich interactive experience and accurate user feedback, thus improving the headset's functionality and ease of use.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHENZHEN GEEYA TELECOM TECH CO LTD
- Filing Date
- 2025-04-28
- Publication Date
- 2026-06-23
AI Technical Summary
Current Bluetooth headsets only use Hall effect sensors to detect the opening and closing of the charging case, which is limited in function and cannot provide a rich and interactive user experience.
A three-axis micro-mechanical digital accelerometer sensor is used to detect the flipping and shaking of the earphone compartment. Combined with a sealing cover, level, vibration feedback device and miniature speaker, it enables various gesture operations to activate the lighting effects of the colorful LED and the outer ring light strip. The MCU coordinates the work of each functional module.
It increases the fun and personalized interactive experience, enables accurate detection and feedback of user operations, and improves the functionality and ease of use of the product.
Smart Images

Figure CN224401654U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of consumer electronics, and in particular to a flip-type gyroscope earphone. Background Technology
[0002] Headphones are personal audio devices designed to deliver sound directly to the wearer's ears without disturbing the surrounding environment like speakers. Headphones typically connect to audio source devices (such as mobile phones, computers, MP3 players, etc.) via wired or wireless means, allowing users to privately listen to music, podcasts, watch videos, make phone calls, or other audio content.
[0003] Existing Bluetooth headphones typically use Hall effect sensors to activate lighting effects. However, Hall sensors are mainly used to detect the opening and closing of the earphone charging case. This means that they can only trigger specific functions (such as lighting effects) based on this one physical state change. For a richer and more interactive user experience, relying solely on Hall sensors is insufficient.
[0004] To address the existing problems, a flip-type gyroscope headset is needed. Utility Model Content
[0005] To overcome the drawback of limited functionality due to Hall effect activation alone, this invention provides a flip-type gyroscope headphone.
[0006] The technical implementation scheme of this utility model is as follows: a flip-type gyroscope earphone, including an earphone compartment, a partition, a circuit board, an MCU, a power management chip, a three-axis micro-mechanical digital accelerometer sensor power supply chip, a RGB LED boost power supply chip, a TYPE-C 5V input port, and RGB LEDs. The earphone compartment is connected to the partition, and the circuit board is installed inside the earphone compartment. The MCU is installed in the middle of the top surface of the circuit board, the power management chip is installed on the left side of the top surface of the circuit board, the three-axis micro-mechanical digital accelerometer sensor power supply chip is installed in the middle of the top surface of the circuit board, the RGB LED boost power supply chip is installed on the right side of the top surface of the circuit board, the TYPE-C 5V input port is installed on the right side of the top surface of the circuit board, and the RGB LEDs are installed on the rear side of the top surface of the circuit board.
[0007] Furthermore, it also includes a sealing cover, a level, a vibration feedback device, and miniature speakers. The sealing cover is rotatably connected to the earphone compartment, a level is installed in the center of the top surface of the sealing cover, a vibration feedback device is installed on the sealing cover, and four miniature speakers are evenly spaced on the sealing cover.
[0008] Furthermore, it also includes a light strip, with a light strip installed around the outer edge of the earphone compartment.
[0009] Furthermore, it also includes a hanging loop, which is attached to the earphone case.
[0010] Furthermore, it also includes anti-slip strips; multiple anti-slip strips are evenly spaced around the outer edge of the earphone compartment.
[0011] Furthermore, it also includes a display screen, which is installed on the headphone compartment.
[0012] The beneficial effects of this utility model are as follows: 1. Unlike traditional Bluetooth headsets that can only trigger specific functions through the opening and closing of the earphone case, this device uses a three-axis micro-mechanical digital accelerometer sensor to sense the flipping and shaking of the earphone case. Users can activate or change the lighting effects of the internal color LED and the outer ring light strip through simple gesture operations. This interactive method not only increases the fun and personalization of use, but also provides users with a brand-new interactive experience.
[0013] 2. Through the ingenious combination of a sealed cover, a level, a vibration feedback device, and a miniature speaker, this device not only achieves accurate detection and feedback of user operations, but also significantly improves the product's functionality, ease of use, and user experience. Attached Figure Description
[0014] Figure 1 This is a three-dimensional structural diagram of the earphone compartment, partition, and anti-slip strip of this utility model.
[0015] Figure 2 This is a cross-sectional view of the partition of this utility model.
[0016] Figure 3 This is a three-dimensional structural diagram of the circuit board, MCU, and power management chip components of this utility model.
[0017] Figure 4 This is a three-dimensional structural diagram of the present invention.
[0018] Figure 5 This is a three-dimensional structural diagram of the sealing cover, level, and vibration feedback device of this utility model.
[0019] In the attached diagram: 1: Earphone compartment, 2: Divider, 3: Circuit board, 301: MCU, 4: Power management chip, 5: Power supply chip for three-axis micro-mechanical digital accelerometer sensor, 6: Power supply chip for RGB LED boost, 7: TYPE-C 5V input port, 8: RGB LED, 9: Sealing cover, 10: Level, 11: Vibration feedback device, 12: Miniature speaker, 13: Light strip, 14: Hanging ring, 15: Anti-slip strip, 16: Display screen. Detailed Implementation
[0020] Reference herein to an embodiment means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are they necessarily mutually exclusive or alternative embodiments. As will be apparent to those of ordinary skill in the art, embodiments described herein can be combined with other embodiments.
[0021] Embodiment: Flip gyro earphone, such as Figures 1-5As shown, it includes an earphone compartment 1, a partition 2, a circuit board 3, an MCU301, a power management chip 4, a three-axis micro-mechanical digital accelerometer sensor power supply chip 5, a RGB LED boost power supply chip 6, and a TYPE-C port. The device includes a 5V input port 7, a RGB LED 8, a sealing cover 9, a level 10, a vibration feedback device 11, a miniature speaker 12, a light strip 13, a hanging ring 14, anti-slip strips 15, and a display screen 16. The headphone compartment 1 is internally connected to a partition 2. Inside the headphone compartment 1 is a circuit board 3. The top center of the circuit board 3 houses an MCU301, which controls the operation of the entire device, processes data from sensors and other input devices, and coordinates the work of various functional modules. The left side of the top surface of the circuit board 3 houses a power management chip 4, which manages the device's power supply, including battery charging, voltage regulation, and current distribution, ensuring stable and appropriate power support for all components. The center of the top surface of the circuit board 3 houses a three-axis micro-mechanical digital accelerometer sensor power supply chip 5, which provides power to the three-axis accelerometer sensor, enabling it to detect the device's direction and motion status; this is commonly used for attitude control and motion recognition. The right side of the top surface of the circuit board 3 houses an RGB LED boost converter chip 6, providing the necessary high voltage to the RGB LED 8 to ensure its normal operation and achieve rich lighting effects. The right side of the top surface of the circuit board 3 also houses a TYPE-C port. 5V input port 7 is a standard interface for connecting to an external power source for charging or data transmission. A multi-colored LED 8 is mounted on the rear top surface of circuit board 3, providing colorful lighting effects. This can be used to indicate device status, enhance visual experience, or serve as a decorative element. A sealing cover 9 is rotatably connected to the earphone compartment 1, engaging with it. A level 10 is mounted in the center of the top surface of the sealing cover 9 to detect whether it is open. A vibration feedback device 11 is installed inside the sealing cover 9 to generate vibration feedback, enhancing user experience and interactivity. Multiple micro-emitters are evenly spaced on the sealing cover 9. The headphone case 1 has a speaker 12 that provides audio output and can be used to play music, voice prompts, or other sound information. A light strip 13 is installed around the outer ring of the headphone case 1 to enhance the user experience. A hanging loop 14 is attached to the headphone case 1 for easy carrying of the device. It can be hung on a keychain, backpack, or other places to increase portability and practicality. Multiple anti-slip strips 15 are evenly spaced around the outer ring of the headphone case 1 to enhance friction when holding the device, prevent accidental slippage, and improve grip comfort and safety. A display screen 16 is installed on the headphone case 1 to display battery level, time, etc.
[0022] When this device is needed, the user flips the earphone case 1 about 80 degrees. The three-axis micro-mechanical digital accelerometer sensor power supply chip 5 can sense the shaking of the earphone case 1 and detect this action. Then, it will transmit the signal to the MCU301 (microcontroller unit). At this time, the MCU301 will trigger a command to activate the colorful LED 8 inside the earphone case 1 and the light strip 13 on the outer ring. This lighting effect will last for three minutes. During these three minutes, if the user shakes the earphone case 1 again, the MCU301 will receive the action signal again and restart or change the lighting effect inside the case to provide a dynamic visual experience. In addition, when the user rotates to open the sealing cover 9, the level 10 can detect this action and send the signal to the vibration feedback device 11 and multiple miniature speakers 12. The vibration feedback device 11 will vibrate once, and the multiple miniature speakers 12 will emit a specified sound to enhance the user experience.
[0023] The above embodiments are merely preferred embodiments of the present utility model and are not intended to limit the scope of the present utility model. Therefore, all equivalent changes made based on the content described in the claims of the present utility model should be included within the scope of the claims of the present utility model.
Claims
1. A flip-type gyroscope headphone, characterized in that, The device includes an earphone compartment (1), a partition (2), a circuit board (3), an MCU (301), a power management chip (4), a three-axis micro-mechanical digital accelerometer sensor power supply chip (5), a color LED boost power supply chip (6), a TYPE-C 5V input port (7), and a color LED (8). The earphone compartment (1) is fixedly connected to the partition (2). The bottom of the earphone compartment (1) is equipped with a circuit board (3). The top center of the circuit board (3) is equipped with an MCU (301). The left side of the top surface of the circuit board (3) is equipped with a power management chip (4). The top center of the circuit board (3) is equipped with a three-axis micro-mechanical digital accelerometer sensor power supply chip (5). The right side of the top surface of the circuit board (3) is equipped with a color LED boost power supply chip (6). The right side of the top surface of the circuit board (3) is equipped with a TYPE-C 5V input port (7). The rear side of the top surface of the circuit board (3) is equipped with a color LED (8).
2. The flip-type gyroscope earphone as described in claim 1, characterized in that, It also includes a sealing cover (9), a level (10), a vibration feedback device (11), and a miniature speaker (12). The sealing cover (9) is rotatably connected to the earphone compartment (1), and the sealing cover (9) is in contact with the earphone compartment (1). The level (10) is installed in the middle of the top surface of the sealing cover (9). The vibration feedback device (11) is installed inside the sealing cover (9). Four miniature speakers (12) are evenly spaced on the sealing cover (9).
3. The flip-type gyroscope earphone as described in claim 2, characterized in that, It also includes a light strip (13), and the outer ring of the earphone compartment (1) is equipped with a light strip (13).
4. The flip-type gyroscope earphone as described in claim 3, characterized in that, It also includes a hanging ring (14), which is attached to the earphone compartment (1).
5. The flip-type gyroscope earphone as described in claim 4, characterized in that, It also includes anti-slip strips (15), and multiple anti-slip strips (15) are evenly spaced on the outer ring of the earphone compartment (1).
6. The flip-type gyroscope earphone as described in claim 5, characterized in that, It also includes a display screen (16), which is installed on the headphone compartment (1).