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CN-122024359-A - Control system of intelligent lock cylinder

CN122024359ACN 122024359 ACN122024359 ACN 122024359ACN-122024359-A

Abstract

The invention relates to the technical field of intelligent lock cylinder control, in particular to a control system of an intelligent lock cylinder, which comprises an internet of things control center, a database, an unlocking interference evaluation unit, a use evaluation unit, an unlocking supervision evaluation unit, a sensitivity evaluation unit and an intelligent early warning unit; according to the intelligent lock cylinder unlocking method, analysis is conducted from the current function and the use performance of the intelligent lock cylinder to accurately know the current energy supply and the use performance interference depth of the intelligent lock cylinder to provide data support for subsequent analysis, the actual unlocking speed is subjected to unlocking fault risk supervision, assessment and analysis in an information progressive mode to improve the running stability and the unlocking efficiency of the intelligent lock cylinder, and the intelligent unlocking information is subjected to sensitivity unlocking reaction assessment and processing operation in an information feedback mode to conduct management and adjustment on the unlocking mode of the intelligent lock cylinder to improve the unlocking sensitivity and reliability.

Inventors

  • LI TIYONG

Assignees

  • 广东大拇指海辉柜锁有限公司

Dates

Publication Date
20260512
Application Date
20260213

Claims (8)

  1. 1. The control system of the intelligent lock cylinder is characterized by comprising an Internet of things control center, a database, an unlocking interference evaluation unit, a use evaluation unit, an unlocking supervision evaluation unit, a sensitivity evaluation unit and an intelligent early warning unit; The internet of things control center is used for calling energy interference information and software and hardware risk information of the intelligent lock cylinder from the database, and respectively sending the energy interference information and the software and hardware risk information to the unlocking interference evaluation unit and the use evaluation unit; the unlocking interference evaluation unit is used for carrying out unlocking interference evaluation division feedback analysis on the received energy interference information, and carrying out discrimination processing on the obtained unlocking interference evaluation value to obtain preset unlocking interference factors corresponding to the primary interference, the secondary interference and the tertiary interference; the using evaluation unit is used for carrying out facility using risk quantization feedback analysis on the received software and hardware risk information to obtain a using interference evaluation coefficient G, and further obtaining a using interference grade corresponding to a preset using interference evaluation coefficient interval of the using interference evaluation coefficient G; The unlocking supervision evaluation unit is used for calling the actual unlocking rate of the intelligent lock cylinder from the database, simultaneously carrying out unlocking fault risk supervision evaluation analysis on the actual unlocking rate, and carrying out discrimination processing on the obtained unlocking performance evaluation coefficient to obtain a risk signal or a stable signal; The sensitivity evaluation unit is used for responding to the stable signal, collecting intelligent unlocking information of the intelligent lock cylinder, performing sensitivity unlocking reaction evaluation processing operation on the intelligent unlocking information, and performing discrimination processing on the obtained sensitivity reaction evaluation value to obtain a normal signal or an operation and maintenance signal.
  2. 2. The control system of an intelligent lock cylinder according to claim 1, wherein the unlocking interference assessment division feedback analysis process is as follows: The method comprises the steps of acquiring an operation period of an intelligent lock cylinder, setting the operation period as a time threshold, acquiring energy interference information of the intelligent lock cylinder in the time threshold, wherein the energy interference information comprises an energy supply interference value and an energy supply stability index, setting the number which is greater than or equal to a preset energy supply interference value threshold and corresponds to a preset energy supply stability index threshold in the energy supply interference value and the energy supply stability index as an unlocking interference evaluation value, judging the unlocking interference evaluation value to obtain primary interference, secondary interference and tertiary interference, and acquiring preset unlocking interference factors which correspond to the primary interference, the secondary interference and the tertiary interference.
  3. 3. The control system of the intelligent lock cylinder according to claim 2, wherein the energy supply interference value represents a total duration that an energy consumption rate of the intelligent lock cylinder exceeds a preset threshold value in different states, the different states include a standby state and an unlocking state, the energy supply stability index represents a product value obtained by multiplying a voltage fluctuation frequency of the intelligent lock cylinder by a value corresponding to a fluctuation span, and the fluctuation span represents a maximum value of a difference value between a voltage fluctuation peak value and a voltage fluctuation trough value.
  4. 4. The control system of an intelligent lock cylinder according to claim 1, wherein the facility uses a risk quantification feedback analysis process as follows: The method comprises the steps of obtaining software and hardware risk information of an intelligent lock cylinder in a time threshold, wherein the software and hardware risk information comprises an interference evaluation index and a hardware offset index, the interference evaluation index represents a product value obtained by multiplying the number corresponding to network defect characteristics of the intelligent lock cylinder and the numerical value obtained by carrying out data normalization processing on update delay times of a software system of the intelligent lock cylinder, the network defect characteristics comprise a clamp and a delay, the hardware offset index represents the number corresponding to the fact that the actual data identification duration exceeds the standard data identification duration in data identification of the intelligent lock cylinder, and the data identification comprises card swiping identification and network identification.
  5. 5. The control system of an intelligent lock cylinder according to claim 4, wherein the interference evaluation index and the hardware offset index are respectively numbered GR and YJ, the interference evaluation index GR and the hardware offset index YJ are substituted into a formula to obtain a use interference evaluation coefficient G, the use interference evaluation coefficient G is compared with a preset use interference evaluation coefficient section, and a use interference level corresponding to the use interference evaluation coefficient G in the preset use interference evaluation coefficient section is obtained.
  6. 6. The control system of an intelligent lock cylinder according to claim 1, wherein the unlocking failure risk supervision and evaluation analysis process is as follows: Acquiring an unlocking period of the intelligent lock cylinder in a time threshold, wherein the unlocking period represents a time period from the start of unlocking the intelligent lock cylinder to the time of unlocking completion in an unlocking mode, the unlocking mode comprises NFC unlocking and Bluetooth unlocking, and an actual unlocking rate corresponding to the unlocking mode of the intelligent lock cylinder in the time threshold is acquired; And meanwhile, obtaining a preset unlocking interference factor and a use interference level corresponding to the intelligent lock cylinder in the time threshold, setting a value obtained by dividing a value corresponding to the actual unlocking rate by the preset unlocking interference factor and dividing by the use interference level as an unlocking performance evaluation coefficient, and judging the unlocking performance evaluation coefficient to obtain a risk signal or a stable signal.
  7. 7. The control system of an intelligent lock cylinder according to claim 1, wherein the sensitivity unlocking reaction evaluation process is as follows: acquiring intelligent unlocking information of the intelligent lock cylinder in a time threshold, wherein the intelligent unlocking information comprises an unlocking evaluation index and a potential unlocking obstruction value; And comparing the unlocking evaluation index and the potential unlocking inhibition value with a preset unlocking evaluation index threshold and a preset potential unlocking inhibition value threshold, setting the number of the unlocking evaluation index and the potential unlocking inhibition value which is larger than or equal to the preset unlocking evaluation index threshold and the preset potential unlocking inhibition value threshold as a sensitive reaction evaluation value, and judging the sensitive reaction evaluation value to obtain a normal signal or an operation and maintenance signal.
  8. 8. The control system of the intelligent lock cylinder according to claim 7, wherein a ratio of the total number of historical unlocking times of the intelligent lock cylinder in a time threshold to the number of times corresponding to the unlocking time exceeding a preset threshold is obtained, the ratio of the total number of historical unlocking times corresponding to the unlocking time exceeding the preset threshold is set as an unlocking evaluation index, the unlocking time indicates a time period from a starting unlocking time to an unlocking completion time, the number of unlocking feature defects of the intelligent lock cylinder in the time threshold is obtained, the number of unlocking feature defects of the intelligent lock cylinder is set as a potential unlocking blocking value, the unlocking feature defects comprise unlocking errors and repeated unlocking, and the repeated unlocking indicates that the intelligent lock cylinder is unlocked only after exceeding 2 times.

Description

Control system of intelligent lock cylinder Technical Field The invention relates to the technical field of intelligent lock cylinder control, in particular to a control system of an intelligent lock cylinder. Background In order to solve the trouble of carrying the key, some intelligent door locks appear in the prior art, generally adopt modes such as password verification, fingerprint verification or NFC card verification, and the like, and can be unlocked by simply reading information and verifying successfully; However, in the prior art, the unlocking of the intelligent lock cylinder cannot be safely monitored, so that the unlocking safety and stability of the intelligent lock cylinder are reduced, the intelligent lock cylinder cannot be analyzed by combining related interference factors, the intelligent lock cylinder cannot be managed in a targeted manner, and meanwhile, the unlocking sensitivity of the intelligent lock cylinder cannot be monitored and controlled, so that the unlocking sensitivity of the intelligent lock cylinder is reduced; in view of the above technical drawbacks, a solution is now proposed. Disclosure of Invention The invention aims to provide a control system of an intelligent lock cylinder, which is used for solving the technical defects, and analyzing the current energy supply and the use of the intelligent lock cylinder from two interference angles so as to accurately know the current energy supply and the use of the intelligent lock cylinder from two interference depths of the two angles, so as to provide data support for subsequent analysis, and performing unlocking fault risk supervision and evaluation analysis on the actual unlocking rate in an information progressive mode, and simultaneously performing joint evaluation on the current energy supply and the use of the two interference angles, so that the system is beneficial to performing safety supervision on the unlocking of the intelligent lock cylinder, improving the operation stability and the unlocking efficiency of the intelligent lock cylinder, and performing sensitive unlocking reaction evaluation processing operation on the intelligent unlocking information in an information feedback mode so as to perform management adjustment on the unlocking mode of the intelligent lock cylinder, thereby improving the unlocking sensitivity and reliability. The intelligent lock cylinder control system comprises an internet of things control center, a database, an unlocking interference evaluation unit, a use evaluation unit, an unlocking supervision evaluation unit, a sensitivity evaluation unit and an intelligent early warning unit; The internet of things control center is used for calling energy interference information and software and hardware risk information of the intelligent lock cylinder from the database, and respectively sending the energy interference information and the software and hardware risk information to the unlocking interference evaluation unit and the use evaluation unit; the unlocking interference evaluation unit is used for carrying out unlocking interference evaluation division feedback analysis on the received energy interference information, and carrying out discrimination processing on the obtained unlocking interference evaluation value to obtain preset unlocking interference factors corresponding to the primary interference, the secondary interference and the tertiary interference; the using evaluation unit is used for carrying out facility using risk quantization feedback analysis on the received software and hardware risk information to obtain a using interference evaluation coefficient G, and further obtaining a using interference grade corresponding to a preset using interference evaluation coefficient interval of the using interference evaluation coefficient G; The unlocking supervision evaluation unit is used for calling the actual unlocking rate of the intelligent lock cylinder from the database, simultaneously carrying out unlocking fault risk supervision evaluation analysis on the actual unlocking rate, and carrying out discrimination processing on the obtained unlocking performance evaluation coefficient to obtain a risk signal or a stable signal; The sensitivity evaluation unit is used for responding to the stable signal, collecting intelligent unlocking information of the intelligent lock cylinder, performing sensitivity unlocking reaction evaluation processing operation on the intelligent unlocking information, and performing discrimination processing on the obtained sensitivity reaction evaluation value to obtain a normal signal or an operation and maintenance signal. Preferably, the unlocking interference evaluation division feedback analysis process is as follows: The method comprises the steps of acquiring an operation period of an intelligent lock cylinder, setting the operation period as a time threshold, acquiring energy interference information of the intelligent lock cylinder in