CN-122027943-A - Earphone charging bin method for realizing pressure relief through knocking and charging bin

Abstract

The invention relates to a headset power supply technology, and discloses a headset charging bin method and a charging bin for realizing pressure relief through knocking, wherein a sensor of the headset charging bin detects knocking actions of a user on the headset charging bin to generate corresponding electric signals, a main control chip receives the electric signals and analyzes signal parameters through a preset algorithm to judge whether the electric signals are effective knocking, when the electric signals are judged to be effective knocking, the main control chip triggers an instruction flow, instruction data corresponding to the effective knocking are extracted from a register, the instruction data are sent to external terminal equipment through a wireless communication chip, the external terminal equipment receives and decodes the instruction data, and feedback operation corresponding to the instruction data is executed to realize pressure relief interactive response. The invention redefines the charging bin from the power supply container into an embedded interactive system integrating power supply, perception and instruction distribution. The method gives the knocking sensing and instruction triggering capabilities to the terminal equipment, so that the terminal equipment becomes an intelligent hub for connecting the physical world and the digital world.

Inventors

• CHENG ZHANG
• XIA QI

Assignees

• 杭州印上智能科技有限公司

Dates

Publication Date

20260512

Application Date

20251231

Claims (7)

1. 1. A method for realizing pressure relief of an earphone charging bin through knocking, which is characterized by comprising the following steps: the sensor detects the knocking action of a user on the earphone charging bin and generates a corresponding electric signal; The main control chip receives the electric signal and analyzes the signal parameters through a preset algorithm to judge whether the signal parameters are effective knocks, and when the signal parameters are judged to be the effective knocks, the main control chip triggers an instruction flow, extracts instruction data corresponding to the effective knocks from a register, and sends the instruction data to external terminal equipment through the wireless communication chip; and the external terminal equipment receives and decodes the instruction data, and executes feedback operation corresponding to the instruction data so as to realize pressure relief interactive response.
2. 2. The method of claim 1, wherein analyzing the signal parameters by a predetermined algorithm to determine if a tap is valid comprises: analyzing at least one of the waveform, amplitude, frequency and duration of the electrical signal; Comparing the analysis result with a preset threshold value or a characteristic waveform template, and judging that the effective knocking is achieved if the analysis result meets a preset condition.
3. 3. The headphone charging cartridge method for pressure relief by tapping of claim 1, wherein determining whether a tap is valid further comprises: Identifying the number of continuous taps occurring within a preset time window; according to different continuous tapping times, different effective tapping modes are corresponding, and different instruction flows are triggered.
4. 4. The earphone charging bin method for achieving pressure relief through knocking according to claim 1, wherein the effective knocking modes include a single-click mode, a double-click mode, a triple-click mode and a long-press mode.
5. 5. The earphone charging bin method for realizing pressure relief by knocking according to claim 1, wherein the external terminal device performs a feedback operation corresponding to the instruction data, comprising at least one of: Starting or switching a pressure relief dedicated application; playing, pausing, switching or adjusting pre-stored soothing audio content; Triggering a touch feedback module of the terminal equipment to generate vibration; and controlling intelligent environment equipment connected with the external terminal equipment, and adjusting light, aroma or temperature.
6. 6. The method for realizing pressure relief of an earphone charging bin by knocking according to claim 1, wherein the sensor is a three-axis sensor.
7. 7. The utility model provides a realize storehouse that earphone that pressure was relaxed through beating, includes the storehouse body, and the storehouse body is used for holding and charging for the earphone, its characterized in that is used for realizing any one of claims 1-6 through beating the storehouse method that charges of earphone that realizes pressure and relax, still includes: The acquisition module is arranged in the bin body and is used for sensing knocking actions of a user and generating corresponding sensing signals; the main control module is arranged in the bin body, is electrically connected with the acquisition module, and is used for receiving the sensing signal, and generating a trigger instruction after judging that the knocking action is effective knocking based on a preset algorithm; the register is electrically connected with the main control module and used for storing the instruction set, and the main control module calls corresponding interaction instruction data from the register after generating the trigger instruction; the wireless communication module is electrically connected with the main control module and is used for sending interaction instruction data to external terminal equipment; The power supply module is electrically connected with the sensing module, the main control module, the register and the wireless communication module and is used for supplying power to each module; the external terminal device is configured to receive the interaction instruction data and execute feedback operation corresponding to the interaction instruction data.

Description

Earphone charging bin method for realizing pressure relief through knocking and charging bin Technical Field The invention relates to the earphone power supply technology, in particular to an earphone charging bin method and a charging bin for realizing pressure relief through knocking. Background Along with the popularization of Bluetooth headset, headset charging bin has become the accessory that the user used frequently daily, and the function homogeneity is serious. Meanwhile, modern people have increasingly demanded mental health and stress relief, and digital meditation tools such as electronic wooden fish and the like are appeared on the market. In the field of mental health, there is an increasing need for immediate stress relief using digital devices. Common relief approaches rely on the user actively operating the handset, launching a specific Application (APP) and selecting content (e.g., white noise, meditation instructions) to play. This process is cumbersome and may instead reduce the experience due to the operational burden when the user feels anxious or needs to calm quickly. Although some schemes exist for triggering interaction through the earphone itself (such as touch control) or a mobile phone sensor (such as a gyroscope), the former is limited by the wearing scene and volume of the earphone, and the interaction mode is limited, and the latter requires that a user must operate the mobile phone itself, so that the immersive and comfortable experience of 'off-screen' cannot be realized. There is a need in the art for a device that can utilize high frequency of contact around a user and that is often in an idle state to provide a natural, convenient, and zero-learning-cost instant pressure relief interaction portal. The earphone charging bin is used as a product which is frequently carried and operated by a user every day, and the bin body is an ideal physical interaction interface which is not fully developed. How to change the charging bin from a passive device to an active interactive terminal with context awareness and intelligent triggering capability and to be in seamless linkage with the digital life of a user is a clear trend of the current technical development and a technical problem to be solved. Disclosure of Invention Aiming at the problems in the prior art, the invention provides a headset charging bin method and a charging bin for realizing pressure relief through knocking. In order to solve the technical problems, the invention is solved by the following technical scheme: a method for realizing pressure relief of an earphone charging bin through knocking comprises the following steps: the sensor detects the knocking action of a user on the earphone charging bin and generates a corresponding electric signal; The main control chip receives the electric signal and analyzes the signal parameters through a preset algorithm to judge whether the signal parameters are effective knocks, and when the signal parameters are judged to be the effective knocks, the main control chip triggers an instruction flow, extracts instruction data corresponding to the effective knocks from a register, and sends the instruction data to external terminal equipment through the wireless communication chip; and the external terminal equipment receives and decodes the instruction data, and executes feedback operation corresponding to the instruction data so as to realize pressure relief interactive response. Preferably, analyzing the signal parameters by a preset algorithm to determine whether a valid tap comprises: analyzing at least one of the waveform, amplitude, frequency and duration of the electrical signal; Comparing the analysis result with a preset threshold value or a characteristic waveform template, and judging that the effective knocking is achieved if the analysis result meets a preset condition. Preferably, determining whether the tap is a valid tap further includes: Identifying the number of continuous taps occurring within a preset time window; according to different continuous tapping times, different effective tapping modes are corresponding, and different instruction flows are triggered. Preferably, the effective tap mode includes a single tap mode, a double tap mode, a triple tap mode, and a long tap mode. Preferably, the external terminal device performs a feedback operation corresponding to the instruction data, including at least one of: Starting or switching a pressure relief dedicated application; playing, pausing, switching or adjusting pre-stored soothing audio content; Triggering a touch feedback module of the terminal equipment to generate vibration; and controlling intelligent environment equipment connected with the external terminal equipment, and adjusting light, aroma or temperature. Preferably, the sensor is a three-axis sensor. In order to solve the technical problem, the invention further provides an earphone charging bin for realizing pressure relief through knockin