WO2018219075A1 - A safe reset apparatus for intelligent door lock and a safe reset method thereof - Google Patents

A safe reset apparatus for intelligent door lock and a safe reset method thereof Download PDF

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WO2018219075A1
WO2018219075A1 PCT/CN2018/084542 CN2018084542W WO2018219075A1 WO 2018219075 A1 WO2018219075 A1 WO 2018219075A1 CN 2018084542 W CN2018084542 W CN 2018084542W WO 2018219075 A1 WO2018219075 A1 WO 2018219075A1
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reset
control module
main control
module
reset signal
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PCT/CN2018/084542
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French (fr)
Chinese (zh)
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唐皓
陈彬
张东胜
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云丁网络技术(北京)有限公司
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Priority to CN201710412101.3A priority patent/CN107339018B/en
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Publication of WO2018219075A1 publication Critical patent/WO2018219075A1/en

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    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05BLOCKS; ACCESSORIES THEREFOR; HANDCUFFS
    • E05B47/00Operating or controlling locks or other fastening devices by electric or magnetic means
    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05BLOCKS; ACCESSORIES THEREFOR; HANDCUFFS
    • E05B47/00Operating or controlling locks or other fastening devices by electric or magnetic means
    • E05B2047/0091Retrofittable electric locks, e.g. an electric module can be attached to an existing manual lock

Abstract

A safe reset apparatus for an intelligent door lock, comprising: a main control module (110), an alarm module (130), a sensing module (140), a reset control module (160), and a pickproof device (150). The alarm module (130) and the reset control module (160) are electrically connected to the main control module (110) separately; the pickproof device (150) is electrically connected to the sensing module (140); the output end of the sensing module (140) is electrically connected to the reset control module (160); the sensing module (140) is used for obtaining state information of the pickproof device (150), and sending the state information to the reset control module (160); the reset control module (160) generates record information according to the state information, and sends the record information to the main control module (110) when the main control module (110) is not in an initializes state; the record information is used for representing the anomaly of the pickproof device (150). Also provided is a safe reset method using the safe reset apparatus.

Description

一种智能门锁的安全复位装置及其安全复位方法Safety reset device for intelligent door lock and safety reset method thereof
本申请要求于2017年06月02日提交中国专利局、申请号为201710412101.3、申请名称为“一种智能门锁的安全复位装置及其安全复位方法”的中国专利申请的优先权,其全部内容通过引用结合在本申请中。This application claims the priority of the Chinese Patent Application filed on June 2, 2017, the Chinese Patent Office, the application number is 201710412101.3, and the application name is "a safe reset device for a smart door lock and its safe reset method". This is incorporated herein by reference.
技术领域Technical field
本发明涉及门锁安全控制技术领域,更具体地,涉及一种智能门锁的安全复位装置及其安全复位方法。The invention relates to the technical field of door lock safety control, and more particularly to a safety reset device for a smart door lock and a safety reset method thereof.
背景技术Background technique
随着社会经济不断发展,家庭安全在人们生活中也日渐备受关注,人们对门锁的智能管理提出了更高的要求,智能门锁作为安防系统中的主要组成部分,其安全性能的稳定性越来越受到人们的关注和重视。With the continuous development of social economy, family safety has become more and more concerned in people's lives. People have put forward higher requirements for intelligent management of door locks. Intelligent door locks are the main components of security systems, and their security performance is stable. More and more people's attention and attention.
目前市场上的智能门锁主要有两种,一种是机械式智能门锁,另外一种是电子式智能门锁,其中,电子式智能门锁,其结合了机械式智能门锁优点同时,还从电子技术防盗上为电子式智能门锁提供了另一种安全保护策略。At present, there are two main types of intelligent door locks on the market, one is a mechanical smart door lock, and the other is an electronic smart door lock. Among them, the electronic intelligent door lock combines the advantages of a mechanical smart door lock. It also provides another security protection strategy for electronic smart door locks from electronic technology theft.
然而,目前的电子式智能门锁的报警功能主要包括本地报警、远程报警两种报警方式,且大部分的电子式智能门锁为了保证特殊情况下能够进门,一般的电子式智能门锁都在外面板隐蔽位置设有复位按钮,其具体复位结构见图1所示。虽然,现有的复位按钮都设计在比较隐蔽的位置,但是,如果在主控模块复位的过程中,有人撬开智能门锁前面板,此时因为主控模块110初始化未完成,主控模块110不能根据感应模块140发送的防撬装置150的异常信息进行报警。也就是说,若有人在主控模块110初始化的过程中先撬开智能门锁的前面板,而后再人工将防撬装置150恢复到正常情况,这样一来,当主控模块110初始化完成之后,其接收到的感应模块140发送的信息即为防撬装置150正常的信息,从而,对于主控模块110初始化过程中防撬装置150出现的异常情况,主控模块110并不能监测到,更不能驱动报警模块130报警,这样就导 致电子式智能门锁存在安全风险。However, the current electronic intelligent door lock alarm function mainly includes two kinds of alarm modes: local alarm and remote alarm, and most of the electronic intelligent door locks can be accessed in order to ensure that the door can be accessed under special circumstances. The hidden position of the panel is provided with a reset button, and the specific reset structure thereof is shown in FIG. Although the existing reset button is designed in a relatively concealed position, if the smart door lock front panel is opened during the reset of the main control module, the main control module is not completed because the initialization of the main control module 110 is not completed. 110 cannot perform an alarm according to the abnormality information of the flood prevention device 150 sent by the sensing module 140. That is to say, if someone in the process of initializing the main control module 110 first opens the front panel of the smart door lock, and then manually restores the anti-smashing device 150 to a normal condition, so that after the initialization of the main control module 110 is completed, The information sent by the sensing module 140 is the normal information of the flood prevention device 150. Therefore, the main control module 110 cannot detect the abnormality of the flood prevention device 150 during the initialization of the main control module 110. The alarm module 130 cannot be driven to alarm, which causes the electronic smart door to be latched at a safety risk.
为了同时兼顾安全性要求,和便利性的要求,本专利定义了一种应用于智能门锁的,可以保证特殊情况下正常复位,兼顾防撬报警等安全检测方案。In order to meet both safety requirements and convenience requirements, this patent defines a safety detection scheme that can be applied to smart door locks to ensure normal reset under special conditions and to prevent flood alarms.
发明内容Summary of the invention
本发明提供一种智能门锁的安全复位装置及其安全复位方法,以解决上现有电子式智能门锁所存在的安全防盗性能差的技术问题。The invention provides a safety reset device for a smart door lock and a safety reset method thereof, so as to solve the technical problem that the existing electronic smart door lock has poor security and anti-theft performance.
第一方面,本发明提供一种智能门锁的安全复位装置,包括:In a first aspect, the present invention provides a safety reset device for a smart door lock, comprising:
主控模块、报警模块、感应模块、复位控制模块和防撬装置;Main control module, alarm module, induction module, reset control module and anti-smashing device;
所述报警模块和所述复位控制模块分别与所述主控模块电性相连;所述防撬装置与所述感应模块电性相连;所述感应模块的输出端与所述复位控制模块电性相连;The alarm module and the reset control module are respectively electrically connected to the main control module; the anti-snag device is electrically connected to the sensing module; the output end of the sensing module and the reset control module are electrically connected Connected
所述感应模块用于获取所述防撬装置的状态信息,并将所述状态信息发送给所述复位控制模块;The sensing module is configured to acquire state information of the flood prevention device, and send the state information to the reset control module;
所述复位控制模块根据所述状态信息生成记录信息,并在所述主控模块未处于初始化状态时,将所述记录信息发送所述主控模块;所述记录信息为表征所述防撬装置异常的记录信息。And the reset control module generates the record information according to the state information, and sends the record information to the main control module when the main control module is not in an initialization state; the record information is used to represent the flood control device Abnormal record information.
可选的,所述感应模块还与所述主控模块电性相连;Optionally, the sensing module is further electrically connected to the main control module;
所述感应模块,还用于将所述状态信息发送给所述主控模块。The sensing module is further configured to send the status information to the main control module.
可选的,所述复位控制模块包括复位控制器和用于获取复位信号的复位输入单元;Optionally, the reset control module includes a reset controller and a reset input unit for acquiring a reset signal;
所述复位输入单元通过所述复位控制器与所述主控模块电性相连;The reset input unit is electrically connected to the main control module through the reset controller;
所述感应模块的输出端与所述复位控制器电性相连;An output end of the sensing module is electrically connected to the reset controller;
所述复位控制器,用于接收所述复位输入单元的发送的复位信号。The reset controller is configured to receive a transmission reset signal of the reset input unit.
可选的,所述复位控制器内置比较器和计时器,所述计时器用于获取所述复位输入单元相邻两次输入信号的间隔时间,所述比较器用于比较所述复位输入单元相邻两次输入信号的间隔时间与预定时间,当比较器确定所述复位输入 单元相邻两次输入信号的间隔时间大于预定时间时,所述复位控制器向所述主控模块发送复位信号以触发所述主控模块初始化。Optionally, the reset controller has a built-in comparator and a timer, and the timer is configured to acquire an interval between the two input signals of the reset input unit, and the comparator is configured to compare the reset input unit adjacent to each other. The interval between the two input signals is a predetermined time, and when the comparator determines that the interval between the two input signals of the reset input unit is greater than a predetermined time, the reset controller sends a reset signal to the main control module to trigger The main control module is initialized.
可选的,所述复位控制器内置计时单元,所述计时单元设有预设计时时间值;当所述复位控制器接收到所述复位输入单元输入的初始复位信号时,则向所述主控模块发送复位信号,以触发所述主控模块初始化,并控制所述计时单元开始计时,当计时时间达到预设的计时时间值时,则计时单元完成一次计时并清零;Optionally, the reset controller has a built-in timing unit, and the timing unit is provided with a preset timing time value; when the reset controller receives the initial reset signal input by the reset input unit, then the main controller is The control module sends a reset signal to trigger the initialization of the main control module, and controls the timing unit to start timing. When the timing time reaches a preset timing time value, the timing unit completes a timing and clears;
若复位控制器在所述计时单元的计时时间范围内接收到复位信号,则记录该复位信号。If the reset controller receives a reset signal within the timed time range of the timing unit, the reset signal is recorded.
可选的,所述报警模块包括远程报警模块或/和本地报警模块。Optionally, the alarm module comprises a remote alarm module or/and a local alarm module.
可选的,所述复位控制模块与所述主控模块之间还设有一备用异常检测通道,所述备用异常检测通道与所述复位控制模块和所述主控模块电性相连或通讯相连;Optionally, a standby abnormality detecting channel is further disposed between the reset control module and the main control module, and the standby abnormality detecting channel is electrically connected or communicatively connected to the reset control module and the main control module;
所述复位控制模块,还用于将所述记录信息通过所述备用异常检测通道发送给所述主控模块。The reset control module is further configured to send the record information to the main control module by using the standby abnormality detection channel.
第二方面,本发明提供一种使用上述第一方面所述安全复位装置的安全复位方法,包括以下步骤:In a second aspect, the present invention provides a secure reset method using the safety reset device of the above first aspect, comprising the steps of:
所述复位控制模块获取复位信号,所述感应模块获取所述防撬装置的状态信息;所述复位控制模块将所述复位信号发送给所述主控模块,以驱动所述主控模块以启动初始化程序;The reset control module acquires a reset signal, and the sensing module acquires state information of the anti-snag device; the reset control module sends the reset signal to the main control module to drive the main control module to start Initialization procedure
所述复位控制模块根据所述状态信息生成记录信息,并在所述主控模块未处于初始化状态时将所述记录信息发送给所述主控模块;所述记录信息为表征所述防撬装置异常的记录信息。The reset control module generates record information according to the state information, and sends the record information to the main control module when the main control module is not in an initialization state; the record information is a characterizing the anti-smash device Abnormal record information.
可选的,所述复位控制模块将所述复位信号发送给所述主控模块,包括:Optionally, the reset control module sends the reset signal to the main control module, including:
所述复位控制模块计算所述复位信号的获取时间与前一个相邻复位信号的获取时间之间的时间间隔,并将所述时间间隔与预定时间比较,当所述间隔 时间大于预定时间时,向所述主控模块发送所述复位信号。The reset control module calculates a time interval between an acquisition time of the reset signal and an acquisition time of a previous adjacent reset signal, and compares the time interval with a predetermined time, when the interval time is greater than a predetermined time, Sending the reset signal to the main control module.
可选的,所述复位控制模块将所述复位信号发送给所述主控模块,包括:Optionally, the reset control module sends the reset signal to the main control module, including:
当所述复位控制器接收到初始复位信号时,则向所述主控模块发送复位信号,以触发所述主控模块初始化,并控制所述计时单元开始计时,当计时时间达到预设的计时时间值时,则计时单元完成一次计时并清零;其中,所述预设计时时间值是复位控制器预先设置的;When the reset controller receives the initial reset signal, sending a reset signal to the main control module to trigger the initialization of the main control module, and controlling the timing unit to start timing, when the timing time reaches a preset timing When the time value is reached, the timing unit completes a timekeeping and clears; wherein the preset timing time value is preset by the reset controller;
若复位控制器在所述计时单元的计时时间范围内接收到复位信号,则记录该复位信号。If the reset controller receives a reset signal within the timed time range of the timing unit, the reset signal is recorded.
可选的,所述复位控制模块在所述主控模块未处于初始化状态时将所述记录信息发送给所述主控模块包括:所述复位控制模块将所述记录信息实时发送给所述主控模块。Optionally, the reset control module sends the record information to the main control module when the main control module is not in an initialization state, and the reset control module sends the record information to the main body in real time. Control module.
可选的,Optional,
所述安全复位方法还包括:所述主控模块根据所述记录信息驱动所述报警模块报警。The security reset method further includes: the main control module driving the alarm module to alarm according to the record information.
与现有技术相比,本发明具有如下优点:Compared with the prior art, the present invention has the following advantages:
利用本发明提供的一种智能门锁的安全复位装置和方法,当主控模块处于初始化状态时,若感应装置感应到防撬装置出现异常,则感应模块可以将防撬装置的状态信息发送给复位控制模块,复位控制模块可以根据该状态信息生成记录信息,并在主控模块未处于初始化状态时,例如,在主控模块完成初始化之后,将记录信息发送主控模块。也就是说,即使防撬装置在主控模块完成初始化之后已经恢复正常,主控模块依然可以通过该记录信息确定防撬装置在主控模块初始化的过程中出现了异常,从而可以触发报警模块报警。从而避免了由于主控模块始化未完成,主控模块不能监测到主控模块初始化过程中智能门锁出现异常的问题。By using the smart reset device and method for intelligent door lock provided by the present invention, when the main control module is in an initial state, if the sensing device senses an abnormality of the anti-snag device, the sensing module can send the state information of the anti-smash device to The reset control module can generate the record information according to the state information, and send the record information to the main control module when the main control module is not in the initialization state, for example, after the main control module completes the initialization. That is to say, even if the flood prevention device has returned to normal after the main control module completes initialization, the main control module can still determine that the anti-smashing device has an abnormality in the process of initializing the main control module through the recording information, thereby triggering the alarm module alarm. . Therefore, the main control module cannot detect the abnormality of the smart door lock during the initialization process of the main control module because the initialization of the main control module is not completed.
附图说明DRAWINGS
通过阅读下文优选实施方式的详细描述,各种其他的优点和益处对于本领域普通技术人员将变得清楚明了。附图仅用于示出优选实施方式的目的,而并不认为是对本发明的限制。而且在整个附图中,用相同的参考符号表示相同的部件。在附图中:Various other advantages and benefits will become apparent to those skilled in the art from a The drawings are only for the purpose of illustrating the preferred embodiments and are not to be construed as limiting. Throughout the drawings, the same reference numerals are used to refer to the same parts. In the drawing:
图1为本发明的现有技术中智能门锁的复位装置的结构框图;1 is a structural block diagram of a reset device for a smart door lock in the prior art according to the present invention;
图2为本发明的一种智能门锁的安全复位装置的结构框图;2 is a structural block diagram of a safety reset device for a smart door lock according to the present invention;
图3为本发明的一种智能门锁的安全复位方法的流程图。3 is a flow chart of a method for safely resetting a smart door lock according to the present invention.
具体实施方式detailed description
下面将参照附图更详细地描述本公开的示例性实施例。虽然附图中显示了本公开的示例性实施例,然而应当理解,可以以各种形式实现本公开而不应被这里阐述的实施例所限制。相反,提供这些实施例是为了能够更透彻地理解本公开,并且能够将本公开的范围完整的传达给本领域的技术人员。Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While the embodiments of the present invention have been shown in the drawings, the embodiments Rather, these embodiments are provided so that this disclosure will be more fully understood and the scope of the disclosure will be fully disclosed.
请参阅图2所示,本发明提供了一种智能门锁的安全复位装置,包括主控模块110、报警模块130、感应模块140、复位控制模块160和防撬装置150。其中,报警模块110和复位控制模块160分别与主控模块110电性相连,所述复位控制模块160用于管理复位信号和防撬装置;所述防撬装置150与所述感应模块140电性连接;且感应模块150输出端还与复位控制模块160电性相连。Referring to FIG. 2, the present invention provides a smart reset device for a smart door lock, including a main control module 110, an alarm module 130, a sensing module 140, a reset control module 160, and a flood prevention device 150. The alarm module 110 and the reset control module 160 are respectively electrically connected to the main control module 110, and the reset control module 160 is configured to manage the reset signal and the anti-snag device; the anti-snag device 150 and the sensing module 140 are electrically The output of the sensing module 150 is also electrically connected to the reset control module 160.
感应模块140用于获取防撬装置150的状态信息,并将所述状态信息发送给所述复位控制模块160;。所述复位控制模块160根据所述状态信息生成记录信息,并在所述主控模块110未处于初始化状态时,将所述记录信息发送所述主控模块110;所述记录信息为表征所述防撬装置异常的记录信息。The sensing module 140 is configured to acquire state information of the flood prevention device 150 and send the state information to the reset control module 160. The reset control module 160 generates the record information according to the state information, and sends the record information to the main control module 110 when the main control module 110 is not in an initialization state; the record information is a representation of the Recording information for abnormal flood control devices.
所述主控模块110即为智能门锁的中央处理器或CPU,主控模块110可以是由一个或一个以上处理器组成,或由至少一组芯片构成;所述防撬装置150可以是防撬开关、接近开关或者红外探测器其中任意一种。其中一个实施例为,所述防撬装置150设置在智能门锁的锁体结构中,当有不法人员撬动智 能门锁的锁体时即可触发防撬装置150。所述感应模块140可以为电平转换电路或电平转换器或带消抖功能的电平转换电路。The main control module 110 is a central processing unit or a CPU of a smart door lock. The main control module 110 may be composed of one or more processors, or may be composed of at least one set of chips;撬 Switch, proximity switch or infrared detector. In one embodiment, the anti-snag device 150 is disposed in the lock body structure of the smart door lock, and the anti-smash device 150 can be triggered when there is a lock body that the unscrupulous person shakes the smart door lock. The sensing module 140 can be a level shifting circuit or a level shifter or a level shifting circuit with a debounce function.
利用本发明提供的一种智能门锁的安全复位装置和方法,当主控模块110处于初始化状态时,若感应模块140感应到防撬装置150出现异常,则感应模块140可以将防撬装置150的状态信息发送给复位控制模块160,复位控制模块160可以根据该状态信息生成记录信息,并在主控模块110未处于初始化状态时,例如,在主控模块110完成初始化之后,将记录信息发送主控模块。也就是说,即使防撬装置150在主控模块110完成初始化之后已经恢复正常,主控模块110依然可以通过该记录信息确定防撬装置150在主控模块110初始化的过程中出现了异常,从而可以触发报警模块130报警。从而避免了由于主控模块110始化未完成,主控模块110不能监测到主控模块110初始化过程中智能门锁出现异常的问题。With the safety reset device and method of the smart door lock provided by the present invention, when the main control module 110 is in the initial state, if the sensing module 140 senses that the anti-snag device 150 is abnormal, the sensing module 140 can set the anti-snag device 150. The status information is sent to the reset control module 160. The reset control module 160 can generate the record information according to the status information, and send the record information after the main control module 110 is not in the initialization state, for example, after the main control module 110 completes the initialization. Master module. That is, even if the flood prevention device 150 has returned to normal after the main control module 110 completes initialization, the main control module 110 can still determine that the anti-snoring device 150 has an abnormality during the initialization of the main control module 110 by using the recording information, thereby The alarm module 130 can be triggered to alarm. Therefore, the main control module 110 cannot monitor the problem that the smart door lock is abnormal during the initialization process of the main control module 110 because the initialization of the main control module 110 is not completed.
在一种可能的实现方式中,所述感应模块140还与所述主控模块110电性相连,所述感应模块140,还用于将所述状态信息发送给所述主控模块。In a possible implementation manner, the sensing module 140 is further electrically connected to the main control module 110, and the sensing module 140 is further configured to send the status information to the main control module.
利用感应模块140与主控模块110直接连接,使得主控模块110在正常状态下,感应模块可以直接将防撬装置150的状态信息发送给主控模块110,使得当防撬装置150异常时,主控模块可以直接根据感应模块140发送的状态信息直接驱动报警模块130响应,缩短智能门锁报警响应时间,从而提高智能门锁的安全性。The sensing module 140 is directly connected to the main control module 110, so that the sensing module 110 can directly send the state information of the anti-snoring device 150 to the main control module 110 in a normal state, so that when the anti-snoring device 150 is abnormal, The main control module can directly drive the alarm module 130 to respond according to the status information sent by the sensing module 140, thereby shortening the intelligent door lock alarm response time, thereby improving the security of the smart door lock.
作为本发明的优选技术方案,本发明复位控制模块160包括复位控制器161和用于获取复位信号的复位输入单元162,其中,复位输入单元162通过复位控制器161与主控模块110电性相连,且感应模块140的输出端与复位控制器161电性相连。所述复位输入单元162可以是复位按钮,复位触控键,或复位开关等。所述复位控制器161为一MCU或集成芯片,设置在智能门锁的主板上,与主控模块110电性连接,用于管理复位信号和防撬装置150。则当用户触发复位输入单元,例如按下复位按钮时,则生成复位信号输入复位控制 器161。复位控制器161记录该复位信号和/或根据该复位信号驱动主控模块110进行初始化。As a preferred technical solution of the present invention, the reset control module 160 of the present invention includes a reset controller 161 and a reset input unit 162 for acquiring a reset signal, wherein the reset input unit 162 is electrically connected to the main control module 110 through the reset controller 161. The output of the sensing module 140 is electrically connected to the reset controller 161. The reset input unit 162 may be a reset button, a reset touch key, or a reset switch or the like. The reset controller 161 is an MCU or an integrated chip, and is disposed on the main board of the smart door lock, and is electrically connected to the main control module 110 for managing the reset signal and the anti-snag device 150. Then, when the user triggers the reset input unit, for example, when the reset button is pressed, a reset signal input reset controller 161 is generated. The reset controller 161 records the reset signal and/or drives the main control module 110 to perform initialization according to the reset signal.
其中一种实施例为,为了缩短本发明的安全复位装置使用响应时间,本发明还在该复位控制器161内置计时器1611和比较器1612,其中,计时器1611用于获取复位输入单元162相邻两次输入信号的间隔时间,比较器1612用于比较复位输入单元162相邻两次输入信号的间隔时间与预定时间,当比较器1612确定所述复位输入单元162相邻两次输入信号的间隔时间大于预定时间时,所述复位控制器161向所述主控模块110发送复位信号,以触发所述主控模块110初始化。即,使用过程中,当复位输入单元162顺序输入两次复位信号时,复位控制器161中的计时器1611顺序记录两次复位信号之间的时间间隔,而比较器1612将两次复位信号之间的时间间隔与预定时间进行比较,当相邻两次复位信号之间的时间间隔大于设定时间时,则复位控制模块161向主控模块发送复位信号,以驱动主控模块以启动初始化程序;否则,则复位控制模块161不向主控模块发送复位信号,即不驱动主控模块以启动初始化程序。In one embodiment, in order to shorten the response time of the safety reset device of the present invention, the present invention also has a timer 1611 and a comparator 1612 built in the reset controller 161, wherein the timer 1611 is used to acquire the reset input unit 162. Comparing the interval time of the two input signals, the comparator 1612 is configured to compare the interval time between the two input signals of the reset input unit 162 and the predetermined time, and when the comparator 1612 determines that the reset input unit 162 is adjacent to the input signal twice When the interval time is greater than the predetermined time, the reset controller 161 sends a reset signal to the main control module 110 to trigger the initialization of the main control module 110. That is, during use, when the reset input unit 162 sequentially inputs the reset signal twice, the timer 1611 in the reset controller 161 sequentially records the time interval between the reset signals twice, and the comparator 1612 resets the signal twice. The time interval is compared with the predetermined time. When the time interval between two adjacent reset signals is greater than the set time, the reset control module 161 sends a reset signal to the main control module to drive the main control module to start the initialization process. Otherwise, the reset control module 161 does not send a reset signal to the main control module, that is, does not drive the main control module to start the initialization process.
其中另一个实施例为,本发明还在该复位控制器内置计时单元(图2中未示出),所述计时单元设有预设计时时间值;当所述复位控制器161接收到所述复位输入单元162输入的初始复位信号时,则向所述主控模块110发送复位信号,以触发所述主控模块110初始化,并控制所述计时单元开始计时;若复位控制器161在计时单元的计时时间范围内接收到复位信号,则记录该复位信号,且不向主控模块发送该复位信号;当计时时间达到预设的计时时间值时,则计时单元完成一次计时并清零;清零后则当在收到复位信号时则此复位信号为初始复位信号;所述初始复位信号为计时单元计时为零时获取的复位信号。例如:预设置的计时时间值为30s。当用户控制复位输入单元(如用户按下复位按钮),则复位控制器161获取该复位信号,若计时单元当期计时为0,则该复位信号为初始复位信号,根据该初始复位信号启动计时单元开始计时;在计时30s的时间内再次或多次获取到复位信号时,则记录该复位信号但复位控 制器161不向主控模块发送复位信号;当计时时间达到30s时,则计时单元完成一次计时并清零;清零后则当再次收到复位信号时则此复位信号为初始复位信号,如此循环不做赘述。In another embodiment, the present invention also has a built-in timing unit (not shown in FIG. 2) of the reset controller, the timing unit is provided with a preset timing time value; when the reset controller 161 receives the When the initial reset signal input by the input unit 162 is reset, a reset signal is sent to the main control module 110 to trigger the initialization of the main control module 110, and the timing unit is controlled to start timing; if the reset controller 161 is in the timing unit After receiving the reset signal within the timeout period, the reset signal is recorded, and the reset signal is not sent to the main control module; when the timing time reaches the preset timing time value, the timing unit completes a timekeeping and clears; After zero, when the reset signal is received, the reset signal is an initial reset signal; the initial reset signal is a reset signal obtained when the timing unit is clocked to zero. For example: The preset timing value is 30s. When the user controls the reset input unit (such as the user presses the reset button), the reset controller 161 acquires the reset signal. If the timing unit is clocked at 0, the reset signal is an initial reset signal, and the timing unit is started according to the initial reset signal. Start timing; when the reset signal is acquired again or in multiple times within 30s, the reset signal is recorded but the reset controller 161 does not send a reset signal to the main control module; when the timing time reaches 30s, the timing unit completes once. Timing and clearing; after clearing, when the reset signal is received again, the reset signal is the initial reset signal, so the loop will not be described.
在本发明实施例中,所述报警模块130可以包括远程报警模块131或/和本地报警模块132。In the embodiment of the present invention, the alarm module 130 may include a remote alarm module 131 or/and a local alarm module 132.
作为本发明的另一个优选技术方案,本发明在复位控制模块与主控模块之间还设有一备用异常检测通道170,复位控制模块通过备用异常检测通道与主控模块电性相连或通讯相连。As another preferred technical solution of the present invention, the present invention further provides a standby abnormality detecting channel 170 between the reset control module and the main control module, and the reset control module is electrically connected or communicatively connected to the main control module through the standby abnormality detecting channel.
当复位控制模块160通过备用异常检测通道170与主控模块110电性相连时,在使用过程中,复位控制模块160驱动主控模块110复位期间,复位控制模块160同时通过感应模块140监控防撬装置的电平,如果检测到防撬装置被撬动,复位控制模块160会将高电平信号通过信号线发送给主控模块110的电平检测引脚,使主控模块110获取这段时间防撬装置150存在异常的情况。When the reset control module 160 is electrically connected to the main control module 110 through the standby abnormality detecting channel 170, during the reset process, the reset control module 160 drives the main control module 110 during reset, and the reset control module 160 simultaneously monitors the anti-smashing module through the sensing module 140. The level of the device, if it is detected that the anti-smash device is activated, the reset control module 160 sends a high-level signal to the level detecting pin of the main control module 110 through the signal line, so that the main control module 110 acquires the time. The flood prevention device 150 has an abnormality.
当复位控制模块160通过备用异常检测通道170与主控模块110通讯相连时,其中,通讯相连包括但不限于串口通讯相连、并口通讯连接或USB通信相连。在使用过程中,复位控制模块160驱动主控模块110初始化期间,复位控制模块160同时通过感应模块140监控防撬装置150的状态的数据,如果检测到防撬装置150被撬动,复位控制模块会将防撬装置150异常的数据包通过信号线发送给主控模块110,使主控模块110获取这段时间防撬装置150存在异常的情况。When the reset control module 160 is connected to the main control module 110 through the standby abnormality detecting channel 170, the communication connection includes, but is not limited to, a serial communication connection, a parallel communication connection or a USB communication connection. During use, during the initialization of the reset control module 160 to drive the main control module 110, the reset control module 160 simultaneously monitors the data of the state of the anti-snoring device 150 through the sensing module 140. If the anti-snag device 150 is detected to be shaken, the reset control module is reset. The abnormal data packet of the flood prevention device 150 is sent to the main control module 110 through the signal line, so that the main control module 110 acquires the abnormality of the anti-smashing device 150 during this period.
在本申请实施例的一种实现方式中,若在主控模块110初始化过程中,如果复位控制模块160通过感应模块140获取到防撬装置150任何异常情况,复位控制模块160可通过备用异常检测通道170向主控模块110发送信息,以使主控模块110启动报警模块130。也就是说,当主控模块110初始化过程中,感应模块140获取到防撬装置150任何异常情况时,则生成防撬装置150的异 常状态信息,复位控制模块160则根据该异常状态信息生成记录信息,通过备用异常检测通道170持续向主控模块110发送异常信号,等待主控模块初始化完成后,则主控模块110根据接收到的异常状态信息驱动报警模块进行报警。In an implementation manner of the embodiment of the present application, if the reset control module 160 acquires any abnormal condition of the flood prevention device 150 through the sensing module 140 during the initialization process of the main control module 110, the reset control module 160 may detect the abnormal abnormality. The channel 170 sends information to the main control module 110 to cause the main control module 110 to activate the alarm module 130. That is, when the sensing module 140 acquires any abnormal condition of the flood prevention device 150 during the initialization process of the main control module 110, the abnormal state information of the flood prevention device 150 is generated, and the reset control module 160 generates a record according to the abnormal state information. The information continues to send an abnormal signal to the main control module 110 through the standby abnormality detecting channel 170. After waiting for the initialization of the main control module, the main control module 110 drives the alarm module to perform an alarm according to the received abnormal state information.
在本申请实施例的另一种实现方式中,主控模块110初始化完成后,如果复位控制模块160获取到防撬装置150任何异常情况时,则复位控制模块160仍可通过备用异常检测通道170向主控模块发送110发送信息,以驱动报警模块工作,从而以提高本发明的安全防盗性能。In another implementation manner of the embodiment of the present application, after the initialization of the main control module 110 is completed, if the reset control module 160 acquires any abnormal condition of the anti-snag device 150, the reset control module 160 can still pass the standby abnormality detecting channel 170. Sending 110 sending information to the main control module to drive the alarm module to work, thereby improving the security anti-theft performance of the present invention.
优选的,本发明的报警模块包括远程报警模块或/和本地报警模块。Preferably, the alarm module of the present invention includes a remote alarm module or/and a local alarm module.
请继续参阅图3所示,本发明还提供了一种使用如上安全复位装置的安全复位方法,包括以下步骤:Referring to FIG. 3, the present invention also provides a safety reset method using the above safety reset device, including the following steps:
S1、所述复位控制模块获取复位信号,所述感应模块获取所述防撬装置的状态信息;所述复位控制模块将所述复位信号发送给所述主控模块,以驱动所述主控模块以启动初始化程序;;S1, the reset control module acquires a reset signal, the sensing module acquires state information of the anti-snag device; the reset control module sends the reset signal to the main control module to drive the main control module To initiate the initialization process;
本发明实施例中所述复位控制模块包括复位输入单元和复位控制器;用户触发复位输入单元时,则生成复位信号输入复位控制器。例如复位输入单元可以为复位按钮,则当用户按下复位按钮时则生成复位信号输入复位控制器。The reset control module in the embodiment of the present invention includes a reset input unit and a reset controller; when the user triggers the reset input unit, a reset signal is input to the reset controller. For example, the reset input unit may be a reset button, and when the user presses the reset button, a reset signal is input to the reset controller.
S2、所述复位控制模块根据所述状态信息生成记录信息,并在所述主控模块未处于初始化状态时将所述记录信息发送给所述主控模块;所述记录信息为表征所述防撬装置异常的记录信息。S2. The reset control module generates record information according to the state information, and sends the record information to the main control module when the main control module is not in an initialization state; the record information is used to represent the defense记录 Device abnormal record information.
本发明的一种智能门锁的安全复位方法,当主控模块处于初始化状态时,若感应装置感应到防撬装置出现异常,则感应模块可以将防撬装置的状态信息发送给复位控制模块,复位控制模块可以根据该状态信息生成记录信息,并在主控模块未处于初始化状态时,例如,在主控模块完成初始化之后,将记录信息发送主控模块。也就是说,即使防撬装置在主控模块完成初始化之后已经恢复正常,主控模块依然可以通过该记录信息确定防撬装置在主控模块初始化的过程中出现了异常,从而可以触发报警模块报警。从而避免了由于主控模块始 化未完成,主控模块不能监测到主控模块初始化过程中智能门锁出现异常的问题。A safety reset method for a smart door lock according to the present invention, when the main control module is in an initial state, if the sensing device senses that the anti-snag device is abnormal, the sensing module can send the state information of the anti-smash device to the reset control module. The reset control module may generate the record information according to the state information, and send the record information to the main control module when the main control module is not in the initialization state, for example, after the main control module completes the initialization. That is to say, even if the flood prevention device has returned to normal after the main control module completes initialization, the main control module can still determine that the anti-smashing device has an abnormality in the process of initializing the main control module through the recording information, thereby triggering the alarm module alarm. . Therefore, the main control module cannot detect the abnormality of the smart door lock during the initialization process of the main control module because the initialization of the main control module is not completed.
在一种可能的实现方式中,所述复位控制模块在所述主控模块未处于初始化状态时将所述记录信息发送所述主控模块包括:所述复位控制模块将所述记录信息实时发送所述主控模块。In a possible implementation, the reset control module sends the record information to the main control module when the main control module is not in an initialization state, and the reset control module sends the record information in real time. The main control module.
为了进一步提高本发明智能门锁的安全防盗性能,本发明的安全复位方法还包括:In order to further improve the security and anti-theft performance of the smart door lock of the present invention, the safety reset method of the present invention further includes:
当主控模块初始化完成后,所述主控模块根据记录信息驱动所述报警模块响应。After the initialization of the main control module is completed, the main control module drives the alarm module response according to the record information.
在发明的另一优选实施例中,为了防止恶意连续输入复位信号导致主控模块反复启动,影响系统运行的流畅性,本发明的一种使用如上安全复位装置的安全复位方法,其包括,In another preferred embodiment of the invention, in order to prevent malicious continuous input of the reset signal, the main control module is repeatedly activated, which affects the fluency of the system operation, and the present invention provides a safety reset method using the above safety reset device, which includes
复位控制模块分别获取相邻两次复位信号之间的时间间隔,并将该时间间隔与设定时间比较,当所述间隔时间大于预定时间时,向所述主控模块发送所述复位信号,以驱动所述主控模块以启动初始化程序;The reset control module respectively acquires a time interval between two adjacent reset signals, and compares the time interval with a set time, and when the interval time is greater than a predetermined time, sends the reset signal to the main control module, Driving the main control module to start an initialization program;
复位控制模块根据比较获得的信息以驱动所述主控模块以启动初始化程序,同时,复位控制模块根据防撬装置的状态信息生成记录信息发送主控模块用于主控模块根据记录信息驱动报警模块响应;当相邻两次复位信号之间的时间间隔大于设定时间时,则复位控制模块驱动主控模块以启动初始化程序;否则,则复位控制模块不驱动主控模块以启动初始化程序。The reset control module drives the main control module to start the initialization program according to the information obtained by the comparison, and the reset control module generates the record information according to the state information of the flood prevention device. The main control module is used by the main control module to drive the alarm module according to the record information. Response; when the time interval between two adjacent reset signals is greater than the set time, the reset control module drives the main control module to start the initialization program; otherwise, the reset control module does not drive the main control module to start the initialization process.
即运行时,复位控制模块通过获取两次相邻复位信号之间的时间间隔,并将相邻两侧复位信号输入时间与设定时间比较,当两次复位信号输入时间小于设定时间时,判断第二次复位信号输入为恶意输入,则主控模块不予启动,即自动屏蔽第二次复位信号输入,避免主控模块反复相应,影响其正常运作。In operation, the reset control module obtains the time interval between two adjacent reset signals, and compares the reset signal input time of the adjacent two sides with the set time. When the reset signal input time is less than the set time, When the second reset signal input is judged as malicious input, the main control module does not start, that is, the second reset signal input is automatically blocked, and the main control module is prevented from repeatedly responding, which affects its normal operation.
其中另一个实施例为,为了防止恶意连续输入复位信号导致主控模块反复启动,影响系统运动流畅性,本发明的一种使用如上安全复位装置的安全复位 方法,其包括,In another embodiment, in order to prevent malicious continuous input of the reset signal, the main control module is repeatedly activated, which affects the smoothness of the system motion, and the present invention provides a safety reset method using the above safety reset device, which includes
所述复位控制模块设有预设计时时间值;所述复位控制模块根据计时状态以确定是否再次驱动所述主控模块以启动初始化程序;The reset control module is provided with a preset timing time value; the reset control module determines whether to drive the main control module to start the initialization program according to the timing state;
具体的,当所述复位控制获取到初始复位信号时,则触发所述主控模块初始化,并开始计时;若复位控制模块在计时时间范围内接收到复位信号,则记录该复位信号,不向主控模块发送该复位信号;当计时时间达到预设的计时时间值时,则复位控制模块完成一次计时并清零。清零后则当再次收到复位信号时则此复位信号为初始复位信号;所述初始复位信号为计时单元计时为零时获取的复位信号。Specifically, when the reset control acquires the initial reset signal, the main control module is triggered to initialize and start timing; if the reset control module receives the reset signal within the timed time range, the reset signal is recorded, and the reset signal is not The main control module sends the reset signal; when the timing time reaches the preset timing time value, the reset control module completes a timing and clears. After clearing, when the reset signal is received again, the reset signal is an initial reset signal; the initial reset signal is a reset signal obtained when the timing unit is clocked to zero.
所述预设的计时时间值为预设置的计时时间,用于在接收到初始复位信号时开始计时;则在计时过程中复位控制模块接收到的复位信号只做记录而不触发主控模块的初始化;当计时时间达到预设的计时时间值时则完成一次计时并进行计时清零。The preset timing time value is a preset timing time for starting timing when the initial reset signal is received; then, during the timing, the reset signal received by the reset control module is only recorded without triggering the main control module. Initialization; when the timing time reaches the preset timing value, the timer is completed and the timing is cleared.
实际应用中,当所述复位控制器接收到所述复位输入单元输入的初始复位信号时,则触发所述主控模块初始化,并控制所述计时单元开始计时;若复位控制器在计时单元的计时时间范围内接收到复位信号,则记录该复位信号;当计时时间达到预设的计时时间值时,则计时单元完成一次计时并清零;清零后则当在收到复位信号时则此复位信号为初始复位信号;所述初始复位信号为计时单元计时为零时获取的复位信号。例如:预设置的计时时间值为30s。当用户控制复位输入单元(如用户按下复位按钮),则复位控制器获取该复位信号,若计时单元当期计时为0,则该复位信号为初始复位信号,根据该初始复位信号启动计时单元开始计时;在计时30s的时间内再次或多次获取到复位信号时,则记录该复位信号但复位控制器不向主控模块发送复位信号;当计时时间达到30s时,则计时单元完成一次计时并清零;清零后则当再次收到复位信号时则此复位信号为初始复位信号,如此循环不做赘述。In an actual application, when the reset controller receives the initial reset signal input by the reset input unit, triggering initialization of the main control module, and controlling the timing unit to start timing; if the reset controller is in the timing unit When the reset signal is received within the time limit, the reset signal is recorded; when the timing time reaches the preset time value, the timing unit completes one time and clears; after clearing, when the reset signal is received, the time is The reset signal is an initial reset signal; the initial reset signal is a reset signal obtained when the timing unit is clocked to zero. For example: The preset timing value is 30s. When the user controls the reset input unit (such as the user presses the reset button), the reset controller acquires the reset signal. If the timing unit is clocked at 0, the reset signal is an initial reset signal, and the timing unit is started according to the initial reset signal. Timing; when the reset signal is acquired again or in multiple times within 30s, the reset signal is recorded but the reset controller does not send a reset signal to the main control module; when the timing time reaches 30s, the timing unit completes a timing and Cleared; after clearing, when the reset signal is received again, the reset signal is the initial reset signal, so the loop will not be described.
本发明的一种智能门锁的安全复位方法,通过复位控制模块获取复位信 号,配合感应模块以获取防撬装置的状态信息,从而使得复位控制模块控制主控模块进行初始化,同时监控防撬装置的状态;当检测到防撬装置的异常状态信息时,则根据防撬装置的状态信息生成记录信息,并将所述记录信息发送给所述主控模块;当主控模块初始化完成后,则根据记录信息启动报警模块,以提醒用户,从而提高智能门锁的安全性能。A safety reset method for an intelligent door lock of the present invention acquires a reset signal by a reset control module, and cooperates with the sensing module to obtain state information of the flood prevention device, so that the reset control module controls the main control module to initialize, and simultaneously monitors the anti-smashing device. When the abnormal state information of the flood prevention device is detected, the record information is generated according to the state information of the flood prevention device, and the record information is sent to the main control module; when the initialization of the main control module is completed, The alarm module is activated according to the recorded information to remind the user, thereby improving the safety performance of the smart door lock.
这里需要举例说明的是,当用户出发复位输入单元,则复位控制模块基于复位信号驱动所述主控模块重新初始化;例如在复位过程中,如有不法人员触发防撬装置或撬开前面板等破坏防撬装置等,则感应模块获取到防撬装置的异常情况则生成防撬装置的异常状态信息,复位控制模块则根据该异常状态信息生成记录信息并持续发送主控模块;则等待主控模块初始化完成后,则主控模块根据接收到的异常信号驱动报警模块进行报警;这样即使不法人员人工将防撬装置恢复到正常情况,主控模块在初始化完成后仍会驱动报警模块报警,增加智能门锁的安全性。Here, it should be exemplified that when the user starts to reset the input unit, the reset control module drives the main control module to re-initialize based on the reset signal; for example, in the reset process, if a fraudulent person triggers the anti-smashing device or opens the front panel, etc. When the anti-smashing device is damaged, the sensing module acquires the abnormal state information of the anti-smashing device, and the reset control module generates the recording information according to the abnormal state information and continuously transmits the main control module; then waits for the main control After the module initialization is completed, the main control module drives the alarm module to perform an alarm according to the received abnormal signal; thus, even if the illegal person manually restores the anti-smashing device to the normal situation, the main control module will drive the alarm module alarm after the initialization is completed, increasing The security of smart door locks.
本发明一种智能门锁的安全复位装置,通过增设独立的复位控制模块,用以监控防撬装置的状态信息及复位信号,根据防撬装置的状态信息与复位信号,以开始或终止主控模块的初始化,从而避免因先对主控模块进行初始化,影响报警模块的失效,影响智能门锁防盗性能。同时,在主控模块与复位控制模块之间设置一备用异常检测通道,使得一旦发现任何防撬装置异状,复位控制模块可通过备用异常检测通道控制主控模块,启动报警模块,从而提高其安全防盗性能。The invention relates to a safety reset device for a smart door lock, which is provided with an independent reset control module for monitoring state information and a reset signal of the flood control device, and starting or terminating the main control according to the state information and the reset signal of the flood prevention device. The initialization of the module avoids the initial initialization of the main control module, affecting the failure of the alarm module and affecting the anti-theft performance of the intelligent door lock. At the same time, an alternate abnormality detecting channel is set between the main control module and the reset control module, so that if any anti-smashing device is found to be abnormal, the reset control module can control the main control module through the standby abnormality detecting channel, and activate the alarm module, thereby improving the Security and anti-theft performance.
需要说明的是,本实用新型的备用异常检测通道可以是信号传输线路,且该信号传输线路还可以用于发送异常信号。It should be noted that the standby abnormality detecting channel of the present invention may be a signal transmission line, and the signal transmission line may also be used for transmitting an abnormal signal.
上述本申请实施例序号仅仅为了描述,不代表实施例的优劣。The serial numbers of the embodiments of the present application are merely for the description, and do not represent the advantages and disadvantages of the embodiments.
在本申请的上述实施例中,对各个实施例的描述都各有侧重,某个实施例中没有详述的部分,可以参见其他实施例的相关描述。In the above-mentioned embodiments of the present application, the descriptions of the various embodiments are different, and the parts that are not detailed in a certain embodiment can be referred to the related descriptions of other embodiments.
在本申请所提供的几个实施例中,应该理解到,所揭露的技术内容,可通 过其它的方式实现。其中,以上所描述的装置实施例仅仅是示意性的,例如所述单元的划分,可以为一种逻辑功能划分,实际实现时可以有另外的划分方式,例如多个单元或组件可以结合或者可以集成到另一个系统,或一些特征可以忽略,或不执行。另一点,所显示或讨论的相互之间的耦合或直接耦合或通信连接可以是通过一些接口,单元或模块的间接耦合或通信连接,可以是电性或其它的形式。In the several embodiments provided in the present application, it should be understood that the disclosed technical contents may be implemented in other manners. The device embodiments described above are only schematic. For example, the division of the unit may be a logical function division. In actual implementation, there may be another division manner, for example, multiple units or components may be combined or may be Integrate into another system, or some features can be ignored or not executed. In addition, the mutual coupling or direct coupling or communication connection shown or discussed may be an indirect coupling or communication connection through some interface, unit or module, and may be electrical or otherwise.
所述作为分离部件说明的单元可以是或者也可以不是物理上分开的,作为单元显示的部件可以是或者也可以不是物理单元,即可以位于一个地方,或者也可以分布到多个单元上。可以根据实际的需要选择其中的部分或者全部单元来实现本实施例方案的目的。The units described as separate components may or may not be physically separated, and the components displayed as units may or may not be physical units, that is, may be located in one place, or may be distributed to multiple units. Some or all of the units may be selected according to actual needs to achieve the purpose of the solution of the embodiment.
另外,在本申请各个实施例中的各功能单元可以集成在一个处理单元中,也可以是各个单元单独物理存在,也可以两个或两个以上单元集成在一个单元中。上述集成的单元既可以采用硬件的形式实现,也可以采用软件功能单元的形式实现。In addition, each functional unit in each embodiment of the present application may be integrated into one processing unit, or each unit may exist physically separately, or two or more units may be integrated into one unit. The above integrated unit can be implemented in the form of hardware or in the form of a software functional unit.
以上所述仅是本申请的优选实施方式,应当指出,对于本技术领域的普通技术人员来说,在不脱离本申请原理的前提下,还可以做出若干改进和润饰,这些改进和润饰也应视为本申请的保护范围。The above description is only a preferred embodiment of the present application, and it should be noted that those skilled in the art can also make several improvements and retouchings without departing from the principles of the present application. It should be considered as the scope of protection of this application.

Claims (12)

  1. 一种智能门锁的安全复位装置,其特征在于,包括:A safety reset device for a smart door lock, comprising:
    主控模块、报警模块、感应模块、复位控制模块和防撬装置;Main control module, alarm module, induction module, reset control module and anti-smashing device;
    所述报警模块和所述复位控制模块分别与所述主控模块电性相连;所述防撬装置与所述感应模块电性相连;所述感应模块的输出端与所述复位控制模块电性相连;The alarm module and the reset control module are respectively electrically connected to the main control module; the anti-snag device is electrically connected to the sensing module; the output end of the sensing module and the reset control module are electrically connected Connected
    所述感应模块用于获取所述防撬装置的状态信息,并将所述状态信息发送给所述复位控制模块;The sensing module is configured to acquire state information of the flood prevention device, and send the state information to the reset control module;
    所述复位控制模块根据所述状态信息生成记录信息,并在所述主控模块未处于初始化状态时,将所述记录信息发送所述主控模块;所述记录信息为表征所述防撬装置异常的记录信息。And the reset control module generates the record information according to the state information, and sends the record information to the main control module when the main control module is not in an initialization state; the record information is used to represent the flood control device Abnormal record information.
  2. 如权利要求1所述的一种智能门锁的安全复位装置,其特征在于,所述感应模块还与所述主控模块电性相连;A safety reset device for a smart door lock according to claim 1, wherein the sensing module is further electrically connected to the main control module;
    所述感应模块,还用于将所述状态信息发送给所述主控模块。The sensing module is further configured to send the status information to the main control module.
  3. 如权利要求1所述的一种智能门锁的安全复位装置,其特征在于,所述复位控制模块包括复位控制器和用于获取复位信号的复位输入单元;A safety reset device for a smart door lock according to claim 1, wherein said reset control module comprises a reset controller and a reset input unit for acquiring a reset signal;
    所述复位输入单元通过所述复位控制器与所述主控模块电性相连;The reset input unit is electrically connected to the main control module through the reset controller;
    所述感应模块的输出端与所述复位控制器电性相连;An output end of the sensing module is electrically connected to the reset controller;
    所述复位控制器,用于接收所述复位输入单元的发送的复位信号。The reset controller is configured to receive a transmission reset signal of the reset input unit.
  4. 如权利要求3所述的一种智能门锁的安全复位装置,其特征在于,所述复位控制器内置比较器和计时器,所述计时器用于获取所述复位输入单元相邻两次输入信号的间隔时间,所述比较器用于比较所述复位输入单元相邻两次输入信号的间隔时间与预定时间,当比较器确定所述复位输入单元相邻两次输入信号的间隔时间大于预定时间时,所述复位控制器向所述主控模块发送复位信号以触发所述主控模块初始化。A safety reset device for a smart door lock according to claim 3, wherein said reset controller has a built-in comparator and a timer, and said timer is configured to acquire two adjacent input signals of said reset input unit Interval time, the comparator is configured to compare an interval time between the two input signals of the reset input unit and a predetermined time, when the comparator determines that the interval between the two input signals of the reset input unit is greater than a predetermined time The reset controller sends a reset signal to the main control module to trigger initialization of the main control module.
  5. 如权利要求3所述的一种智能门锁的安全复位装置,其特征在于,所 述复位控制器内置计时单元,所述计时单元设有预设计时时间值;当所述复位控制器接收到所述复位输入单元输入的初始复位信号时,则向所述主控模块发送复位信号,以触发所述主控模块初始化,并控制所述计时单元开始计时,当计时时间达到预设的计时时间值时,则计时单元完成一次计时并清零;A safety reset device for a smart door lock according to claim 3, wherein said reset controller has a built-in timing unit, said timing unit being provided with a preset timing time value; when said reset controller receives When the initial reset signal input by the input unit is reset, a reset signal is sent to the main control module to trigger initialization of the main control module, and the timing unit is controlled to start timing, when the timing time reaches a preset timing time. When the value is up, the timing unit completes a time and clears it;
    若复位控制器在所述计时单元的计时时间范围内接收到复位信号,则记录该复位信号。If the reset controller receives a reset signal within the timed time range of the timing unit, the reset signal is recorded.
  6. 如权利要求1所述的一种智能门锁的安全复位装置,其特征在于,所述报警模块包括远程报警模块或/和本地报警模块。A safety reset device for a smart door lock according to claim 1, wherein said alarm module comprises a remote alarm module or/and a local alarm module.
  7. 如权利要求1所述的一种智能门锁的安全复位装置,其特征在于,所述复位控制模块与所述主控模块之间还设有一备用异常检测通道,所述备用异常检测通道与所述复位控制模块和所述主控模块电性相连或通讯相连;A safety reset device for a smart door lock according to claim 1, wherein an auxiliary abnormality detecting channel is further disposed between the reset control module and the main control module, and the standby abnormality detecting channel and the device are provided. The reset control module and the main control module are electrically connected or communicatively connected;
    所述复位控制模块,还用于将所述记录信息通过所述备用异常检测通道发送给所述主控模块。The reset control module is further configured to send the record information to the main control module by using the standby abnormality detection channel.
  8. 一种使用如权利要求1所述安全复位装置的安全复位方法,其特征在于,包括以下步骤:A safety reset method using the safety reset device according to claim 1, comprising the steps of:
    所述复位控制模块获取复位信号,所述感应模块获取所述防撬装置的状态信息;所述复位控制模块将所述复位信号发送给所述主控模块,以驱动所述主控模块以启动初始化程序;The reset control module acquires a reset signal, and the sensing module acquires state information of the anti-snag device; the reset control module sends the reset signal to the main control module to drive the main control module to start Initialization procedure
    所述复位控制模块根据所述状态信息生成记录信息,并在所述主控模块未处于初始化状态时将所述记录信息发送给所述主控模块;所述记录信息为表征所述防撬装置异常的记录信息。The reset control module generates record information according to the state information, and sends the record information to the main control module when the main control module is not in an initialization state; the record information is a characterizing the anti-smash device Abnormal record information.
  9. 如权利要求8所述的安全复位方法,其特征在于,所述复位控制模块将所述复位信号发送给所述主控模块,包括:The security reset method of claim 8, wherein the reset control module sends the reset signal to the main control module, including:
    所述复位控制模块计算所述复位信号的获取时间与前一个相邻复位信号的获取时间之间的时间间隔,并将所述时间间隔与预定时间比较,当所述间隔时间大于预定时间时,向所述主控模块发送所述复位信号。The reset control module calculates a time interval between an acquisition time of the reset signal and an acquisition time of a previous adjacent reset signal, and compares the time interval with a predetermined time, when the interval time is greater than a predetermined time, Sending the reset signal to the main control module.
  10. 如权利要求8所述的安全复位方法,其特征在于,所述复位控制模块将所述复位信号发送给所述主控模块,包括:The security reset method of claim 8, wherein the reset control module sends the reset signal to the main control module, including:
    当所述复位控制器接收到初始复位信号时,则向所述主控模块发送复位信号,以触发所述主控模块初始化,并控制所述计时单元开始计时,当计时时间达到预设的计时时间值时,则计时单元完成一次计时并清零;其中,所述预设计时时间值是复位控制器预先设置的;When the reset controller receives the initial reset signal, sending a reset signal to the main control module to trigger the initialization of the main control module, and controlling the timing unit to start timing, when the timing time reaches a preset timing When the time value is reached, the timing unit completes a timekeeping and clears; wherein the preset timing time value is preset by the reset controller;
    若复位控制器在所述计时单元的计时时间范围内接收到复位信号,则记录该复位信号。If the reset controller receives a reset signal within the timed time range of the timing unit, the reset signal is recorded.
  11. 如权利要求8所述的安全复位方法,其特征在于,所述复位控制模块在所述主控模块未处于初始化状态时将所述记录信息发送给所述主控模块包括:所述复位控制模块将所述记录信息实时发送给所述主控模块。The security reset method according to claim 8, wherein the reset control module sends the record information to the main control module when the main control module is not in an initialization state, and includes: the reset control module The recorded information is sent to the main control module in real time.
  12. 如权利要求8-11任意一项所述的安全复位方法,其特征在于,A security reset method according to any one of claims 8-11, characterized in that
    所述安全复位方法还包括:所述主控模块根据所述记录信息驱动所述报警模块报警。The security reset method further includes: the main control module driving the alarm module to alarm according to the record information.
PCT/CN2018/084542 2017-06-02 2018-04-26 A safe reset apparatus for intelligent door lock and a safe reset method thereof WO2018219075A1 (en)

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CN107339018B (en) * 2017-06-02 2019-02-26 云丁网络技术(北京)有限公司 A kind of the safety reset device and its safety reset method of intelligent door lock
CN108691458B (en) * 2018-05-09 2020-01-24 珠海格力电器股份有限公司 Door lock, door lock control method and device
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