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CN-122024357-A - Intelligent lock electric quantity indicating system and indicating method

CN122024357ACN 122024357 ACN122024357 ACN 122024357ACN-122024357-A

Abstract

The invention discloses an intelligent lock electric quantity indicating system and an indicating method, which relate to the technical field of intelligent locks, wherein the intelligent lock electric quantity indicating system comprises a main control module; the intelligent lock comprises a main control module, an unlocking identification module, a battery, a power management module, an electric quantity detection module, a buzzer module and/or an indicator lamp module, wherein the main control module is used for controlling the intelligent lock to unlock or not unlock, the unlocking identification module is connected with the main control module and is used for identifying unlocking information and feeding back the unlocking information to the main control module, the main control module is used for controlling the intelligent lock to unlock or not unlock, the battery is connected with the battery and the main control module and is used for managing power supply of the battery, the electric quantity detection module is connected with the battery and the main control module and is used for detecting electric quantity of the battery and feeding back the electric quantity information to the main control module, and the buzzer module and/or the indicator lamp module is connected with the main control module and is used for prompting success or failure of unlocking and is used for prompting electric quantity intervals through the buzzer module and/or flickering of the indicator lamp module when the main control module controls the intelligent lock to unlock. In the invention, the user can know whether unlocking is successful or not and the residual electric quantity interval. And the structure of the intelligent lock itself does not need to be changed.

Inventors

  • LUO GAN

Assignees

  • 深圳市龙兄弟数码锁有限公司

Dates

Publication Date
20260512
Application Date
20260204

Claims (10)

  1. 1. An intelligent lock power indicating system, comprising: A main control module; the unlocking identification module is connected with the main control module and used for identifying unlocking information and feeding the unlocking information back to the main control module, and the main control module controls the intelligent lock to unlock or not unlock; A battery; the power supply management module is connected with the battery and the main control module and is used for managing power supply of the battery; the electric quantity detection module is connected with the battery and the main control module and is used for detecting the electric quantity of the battery and feeding back electric quantity information to the main control module; The buzzer module and/or the indicator light module is connected with the main control module and used for prompting success or failure of unlocking, and is used for prompting an electric quantity interval through the buzzer module and/or the indicator light module flashing when the main control module controls the intelligent lock to unlock.
  2. 2. The intelligent lock electricity quantity indication system of claim 1, further comprising a function key, wherein the function key is connected with the main control module and is used for inputting an electricity quantity inquiry command to enable the main control module to control the buzzer module to sound and/or the indicator light module to flash to prompt an electricity quantity interval.
  3. 3. The smart lock power indicating system of claim 1, wherein the power interval includes at least a first power interval and a second power interval.
  4. 4. The smart lock power indicating system of claim 3, wherein the power intervals comprise a first power interval, a second power interval, a third power interval, and a fourth power interval that are arranged continuously or at intervals.
  5. 5. The smart lock charge indication system of claim 3, wherein the buzzer module includes at least a first beeping mode corresponding to a first charge interval and a second beeping mode corresponding to a second charge interval.
  6. 6. The smart lock charge indication system of claim 3, wherein the indicator light module includes at least a first blinking pattern corresponding to a first charge interval and a second blinking pattern corresponding to a second charge interval.
  7. 7. An intelligent lock electric quantity indicating method based on the intelligent lock electric quantity indicating system of any one of claims 1-6, which is characterized in that the method comprises a main control module controlling the intelligent lock to be unlocked; the main control module acquires a battery electric quantity value; The main control module controls the buzzer module or the indicator light module to send out unlocking success prompts and electric quantity interval prompts so as to prompt the electric quantity interval corresponding to the electric quantity value.
  8. 8. The smart lock power indication method of claim 7, wherein the power interval includes at least a first power interval and a second power interval.
  9. 9. The method of claim 8, wherein the power intervals comprise a first power interval, a second power interval, a third power interval, and a fourth power interval, which are arranged continuously or at intervals.
  10. 10. The smart lock charge indication method of claim 8, wherein the buzzer module includes at least a first beep pattern corresponding to a first charge interval and a second beep pattern corresponding to a second charge interval, or the indicator light module includes at least a first blink pattern corresponding to a first charge interval and a second blink pattern corresponding to a second charge interval.

Description

Intelligent lock electric quantity indicating system and indicating method Technical Field The invention belongs to the technical field of intelligent locks, and particularly relates to an intelligent lock electric quantity indicating system and an intelligent lock electric quantity indicating method. Background Currently, intelligent locks that use battery power have been widely used in various contexts. However, in the use process of the user, how to timely, clearly and comprehensively obtain the lock state information, especially two key information of "residual electric quantity" and "unlocking success" is still a pain point to be improved in the prior art. Most of the existing intelligent lock prompt schemes are single in function and information splitting. The common design is that the low electric quantity is only prompted through an indicator lamp or a sound, or the unlocking action is only prompted when the lock is unlocked, and the electric quantity level and the unlocking result cannot be synchronously transmitted in one interaction. The user needs to pay attention to prompts at different time points or in different modes respectively to spell out complete state cognition, the use process is complex, and the experience is poor. Although some products attempt to introduce a power classification prompt, the threshold division is often relatively fuzzy (e.g., only "high" and "low") and the power prompt logic and the unlocking state prompt logic are independent of each other, and lack of cooperative linkage. The prompting mode of the rupture not only increases the recognition burden of the user, but also is more critical in that the user is difficult to accurately predict the actual endurance condition of the battery because the accurate electric quantity information linked with the unlocking state cannot be provided, and the intelligent lock cannot be normally opened due to the sudden exhaustion of the electric quantity, so that the use interruption and the safety risk are caused. The intelligent lock that still shows the electric quantity through setting up the display screen on the market, but to the intelligent lock that does not take the display screen of itself, just need change the structure of intelligent lock itself, can not utilize the structure of intelligent lock itself to indicate the electric quantity, and is with high costs and inconvenient popularization, and buzzer and pilot lamp are the structure that all intelligent locks itself just possess. Therefore, it is necessary to design a more integrated, visual and accurate prompt scheme, so that a user can know whether unlocking is successful or not and an accurate residual electric quantity interval at one time and unambiguously, user experience is improved, unlocking faults caused by electric quantity exhaustion are fundamentally avoided, and for an intelligent lock without a display screen, electric quantity prompt can be realized without changing the structure of the intelligent lock. Disclosure of Invention In order to solve the above problems, a primary object of the present invention is to provide an intelligent lock power indication system and an intelligent lock power indication method, so that a user can know whether unlocking is successful or not and an accurate remaining power interval at the same time in a disposable and unambiguous manner, thereby improving user experience and fundamentally avoiding unlocking faults caused by power exhaustion. Still another object of the present invention is to provide an intelligent lock power indication system and an intelligent lock power indication method, which can realize power indication for an intelligent lock without a display screen without changing the structure of the intelligent lock itself. In order to achieve the above purpose, the technical scheme of the invention is as follows: the invention provides an intelligent lock electric quantity indicating system, which is characterized by comprising the following components: A main control module; the unlocking identification module is connected with the main control module and used for identifying unlocking information and feeding the unlocking information back to the main control module, and the main control module controls the intelligent lock to unlock or not unlock; A battery; the power supply management module is connected with the battery and the main control module and is used for managing power supply of the battery; the electric quantity detection module is connected with the battery and the main control module and is used for detecting the electric quantity of the battery and feeding back electric quantity information to the main control module; The buzzer module and/or the indicator light module is connected with the main control module and used for prompting success or failure of unlocking, and is used for prompting an electric quantity interval through the buzzer module and/or the indicator light module flashing when