WO2016061733A1 - 基于互联网的云可视门铃系统及其操作方法 - Google Patents

基于互联网的云可视门铃系统及其操作方法 Download PDF

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Publication number
WO2016061733A1
WO2016061733A1 PCT/CN2014/088947 CN2014088947W WO2016061733A1 WO 2016061733 A1 WO2016061733 A1 WO 2016061733A1 CN 2014088947 W CN2014088947 W CN 2014088947W WO 2016061733 A1 WO2016061733 A1 WO 2016061733A1
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Prior art keywords
visitor
receiving device
video
module
indoor receiving
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PCT/CN2014/088947
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English (en)
French (fr)
Inventor
黄晓
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深圳市瑞彩电子技术有限公司
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Application filed by 深圳市瑞彩电子技术有限公司 filed Critical 深圳市瑞彩电子技术有限公司
Priority to PCT/CN2014/088947 priority Critical patent/WO2016061733A1/zh
Priority to CN201480002008.XA priority patent/CN105659301A/zh
Publication of WO2016061733A1 publication Critical patent/WO2016061733A1/zh

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    • GPHYSICS
    • G08SIGNALLING
    • G08BSIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
    • G08B29/00Checking or monitoring of signalling or alarm systems; Prevention or correction of operating errors, e.g. preventing unauthorised operation

Definitions

  • the present invention relates to the field of electronic technologies, and in particular, to an internet-based cloud visual doorbell system and an operating method thereof.
  • Smart home technology is the key technology to realize the digitalization of home devices. With this technology, all home appliances in the home can be connected into one body, enabling device interconnection and information transmission anytime and anywhere.
  • WIFI-based doorbell systems there are mainly two WIFI-based doorbell systems.
  • One is an electronic cat-eye system based on WIFI.
  • the outdoor unit (outside of the door) of this system is a lens board with a camera, voice intercom and buttons. It is connected to the indoor (door inside) through the electronic connection with WIFI function.
  • Receiver The receiver accesses the Internet through the WIFI router at home. When a guest presses the doorbell, the audio can be sent to the owner's mobile phone through the indoor receiver, and the two-way intercom can also be performed.
  • the disadvantage of this method is that since the receiver needs external power supply or is powered by a lithium battery, the WIFI power consumption is relatively large, and the power-off connection time is longer after the power is turned off again, and the power-saving state cannot be completely entered, resulting in a short battery life. It usually takes a month to charge the battery. Or you can only use external power supply, but some countries stipulate that residential doors cannot introduce external power. In addition, the ISM frequency band used by WIFI is already crowded, and the communication distance is limited. If the residential gate is far away from the living room router, the effect will be affected.
  • Another outdoor unit of the existing doorbell system is a WIFI-based network camera with a voice intercom function.
  • the network camera can directly access the indoor WIFI router and then connect to the Internet to realize the audio and video communication between the guest and the owner's mobile phone through the doorbell.
  • the outdoor unit needs external continuous supply. Electricity.
  • the shortcoming of this method is: Because WIFI power consumption is relatively large, the power-off connection time after re-power-off and power-off is relatively long, and cannot fully enter the power-saving state, and can only be solved by an external power supply mode.
  • the ISM frequency band used by WIFI is already crowded, the communication distance is limited, and the outdoor unit can only be fixed on the outer wall surface, and the WIFI signal attenuation is relatively large, which affects the use effect.
  • there is no separate receiving device in the room and even if the owner is at home, there is a possibility that the guest does not know that there is a guest visiting because the mobile phone is not turned on.
  • An embodiment of the present invention provides an Internet-based cloud video doorbell system, including: an outdoor unit, configured to generate prompt information, collect a video or picture of a visitor, communicate with an indoor receiving device, and also be used by the visitor and the owner.
  • Voice communication the indoor receiving device is coupled to the outdoor unit for receiving the prompt information from the outdoor unit, and when the owner is at home, prompting the owner to have the visitor by ringing and voice Communicating with the visitor; when the owner goes out, connecting to the server, prompting the visitor to push the message of the doorbell to the client, so that the owner views the visitor through the client and a voice communication by a visitor;
  • a router coupled to the indoor receiving device for connecting the indoor receiving device to the cloud server;
  • the cloud server coupled to the router for the indoor receiving device and Communicating between the clients;
  • the client coupled to the cloud server, for receiving the room when the owner goes out
  • the prompt pushed by the receiving device is a message that the visitor presses the doorbell to view the video or picture of the visitor collected by the outdoor
  • the outdoor unit further includes: a first button module coupled to the first central processing unit for generating the prompt information; a first audio module coupled to the first central processing unit, configured to: The guest performs voice communication with the owner; a video module is coupled to the first central processing unit, And collecting the video or picture of the visitor; a first wireless transceiver circuit configured to transmit the prompt information to communicate with the indoor receiving device; a clock and a power management circuit for timing and powering, and powering off Switching; a memory card for storing audio, the video and the picture; and an infrared human body sensing probe for sensing trigger information.
  • a first button module coupled to the first central processing unit for generating the prompt information
  • a first audio module coupled to the first central processing unit, configured to: The guest performs voice communication with the owner
  • a video module is coupled to the first central processing unit, And collecting the video or picture of the visitor
  • a first wireless transceiver circuit configured to transmit the prompt information to communicate with the indoor receiving device
  • the first central processing unit is a low-power central processing unit for controlling power supply of the first audio module, the video module, and the first wireless transceiver circuit, wherein When the guest is in the guest, the first central processing unit is in the deep sleep state, and stops supplying power to the first audio module, the video module, and the first wireless transceiver circuit; when the first central processor detects When the first button module is pressed or the infrared body sensing probe is triggered, the first central processor switches from the deep sleep state back to the normal working state, and the first wireless transceiver circuit is turned on.
  • the power supply communicates with the indoor receiving device, and determines whether the power supply of the first audio module and the video module needs to be turned on according to a control command of the indoor receiving device, wherein, when the time exceeds a certain period of time, the power is not received.
  • the first central processing unit When the instruction to the indoor receiving device is received, the first central processing unit turns on the power supply of the first audio module and the video module, prompting the visitor to stay And storing the audio, the video, and the picture in the memory card, and entering an automatic sleep state within a certain time; and when the first central processor receives a sleep instruction of the indoor receiving device When the first central processing unit stops normal operation for more than a certain period of time, the first central processing unit turns off the power supply of the first audio module, the video module, and the first wireless transceiver circuit to enter The deep sleep state.
  • the indoor receiving device includes: a second central processing unit, configured to control a second button module, a second audio module, a second wireless transceiver circuit, and a connection module; and a second button module coupled to the second central unit a processor, configured to respond to the prompt information; a second audio module coupled to the second central processor, configured to ring to prompt the host to have the visitor and perform voice communication with the visitor; a transceiver circuit coupled to the second central processing unit for receiving prompt information transmitted by the first wireless transceiver circuit, driving the second audio module to emit a sound, and a connection module coupled to the second central processing unit By connecting the indoor receiving device to the cloud server.
  • a second central processing unit configured to control a second button module, a second audio module, a second wireless transceiver circuit, and a connection module
  • a second button module coupled to the second central unit a processor, configured to respond to the prompt information
  • a second audio module coupled to the second central processor, configured to ring to prompt the host to have the visitor and perform voice
  • the indoor receiving device is connected to the Internet through the router, and is registered to the cloud server by using a bound account, and is associated with the client registered to the cloud server.
  • the indoor receiving device pushes the message prompting a guest to ring the door to the client by sending information, and when the owner views the visitor, sending the video of the visitor or The picture.
  • An embodiment of the present invention provides an Internet-based cloud video doorbell operation method, including: a visitor pressing a first button module of an outdoor unit or triggering an infrared human body sensing probe to generate prompt information, so that the first central processing of the outdoor unit Switching from the deep sleep state to the normal working state, turning on the power supply of the first wireless transceiver circuit of the outdoor unit; transmitting, by the first wireless transceiver circuit, the prompt information to the indoor receiving device, where the indoor receiving device a second central processor driving the second audio module of the indoor receiving device to emit a sound; sending, by the indoor receiving device, a control command to the first central processor, causing the first central processor to open the outdoor Powering the first audio module of the machine and the video module of the outdoor unit; if the owner is at home, the owner responds to the prompt information by the second button module of the indoor receiving device, so that the owner and the The guest performs voice communication through the first audio module and the second audio module; and if the owner is not at home, the The receiving device is connected to
  • the method further includes: after the communication is completed, the first central processor receives a sleep instruction sent by the indoor receiving device, and closes and controls the first audio module, the video module, and the first wireless transceiver. Powering the circuit to enter the deep sleep state; and after the first central processor stops normal operation for more than a certain period of time, shutting down control of power supply of the first audio module, the video module, and the first wireless transceiver circuit Entering the deep sleep state.
  • the indoor receiving device is connected to the Internet through a router, and is registered to the cloud server through the bound account, and is associated with the client registered to the cloud server.
  • the indoor receiving device pushes the message prompting the visitor to ring the door to the client by sending information, and when the owner views the visitor, sending the visitor's location Said video or said picture.
  • the outdoor unit adopts a low-power wireless camera, which can be powered by a battery (usually normal use period of 4-5 months), due to wireless technology communication, The coverage is large, and it is not necessary to drill the wire on the wall, which greatly reduces the complexity of the construction.
  • the owner is not at home, he can know someone to visit through the mobile phone anytime and anywhere, and can communicate with the visitors in real time.
  • FIG. 1 is a network topology diagram of an Internet-based cloud video doorbell system according to an embodiment of the present invention.
  • FIG. 2 is a schematic structural diagram of an Internet-based cloud video doorbell system according to an embodiment of the present invention.
  • FIG. 3 is a specific flowchart of a method for operating a cloud video doorbell based on Internet technology according to an embodiment of the present invention.
  • FIG. 1 is a network topology diagram of an Internet-based cloud video doorbell system 100 according to an embodiment of the present invention.
  • the visitor presses the outdoor unit (or triggers the infrared human body sensing probe) to generate prompt information (for example, in the form of text, voice, video, or picture) to switch the outdoor unit from deep sleep to normal operation.
  • prompt information for example, in the form of text, voice, video, or picture
  • the outdoor unit transmits the prompt information to the indoor receiving device; if the owner is at home, the owner responds to the prompt information through the indoor receiving device, so that the owner and the visitor pass the voice Communicate; and if the owner is not at home, the indoor receiving device is connected to the cloud server through the router, and will prompt the visitor to press the doorbell message (for example, in the form of text, voice, or picture) to the client, so that the owner passes the client View visitors and voice communication with visitors.
  • the outdoor unit automatically starts the recording, filming, and recording functions and saves them in the memory card, and simultaneously sends the information to the indoor receiving device, and enters the deep sleep state again after working for a period of time.
  • FIG. 2 is a schematic structural diagram of an Internet-based cloud video doorbell system 200 according to an embodiment of the present invention.
  • system 200 includes an outdoor unit 210, an indoor receiving device 220 coupled to the outdoor unit 210, a router 230 coupled to the indoor receiving device 220, a cloud server 240 coupled to the router 230, and a client coupled to the cloud server 240.
  • Terminal 250 and wireless alarm 260 coupled to indoor receiving device 220.
  • the outdoor unit 210 is configured to generate prompt information, collect a video or picture of the visitor, communicate with the indoor receiving device 220, and also perform voice communication between the visitor and the owner.
  • the outdoor unit 210 includes a first central processing unit 211, a first key module 212 coupled to the first central processing unit 211, a first audio module 213 coupled to the first central processing unit 211, and coupled to the first central unit.
  • a video module 214 of the processor 211 a first wireless transceiver circuit 215 coupled to the first central processing unit 211, a clock and power management circuit 216, a memory card 217 coupled to the first audio module 213 and the video module 214, and coupled to the An infrared human body sensing probe 218 of a central processing unit 211.
  • the first central processing unit 211 is a low-power central processing unit for controlling the first audio module 213 (including, for example, a microphone and a speaker), the video module 214, and the first wireless transceiver circuit 215. Power supply.
  • the first central processing unit 211 when there is no visitor, the first central processing unit 211 is in a deep sleep state, and stops supplying power to the first audio module 213, the video module 214, and the first wireless transceiver circuit 215; when the first central processing unit 211 detects When the first button module 212 is pressed (for example, a guest is visited) or the infrared human body sensing probe 218 is triggered, the first central processing unit 211 switches from the deep sleep state to the normal working state, and turns on the first wireless transceiver circuit 215.
  • the power supply is communicated with the indoor receiving device 220, and according to the control command of the indoor receiving device 220, it is determined whether the power supply of the first audio module 213 and the video module 214 needs to be turned on, wherein, when the time exceeds a certain period of time, Upon receiving the instruction of the indoor receiving device 220, the first central processing unit 211 turns on the power supply of the first audio module 213 and the video module 214, prompts the guest to leave a message, and saves the audio, video, and picture in the memory card 217, and at a certain time.
  • the first central processing unit 211 when the first central processing unit 211 receives the sleep instruction sent by the indoor receiving device 220, or after the first central processing unit 211 stops normal operation for more than a certain time, the first central processing unit 211 turns off the control
  • the power supply of an audio module 213, the video module 214, and the first wireless transceiver circuit 215 enters a deep sleep state.
  • the first button module 212 is configured to generate prompt information.
  • the first audio module 213 includes a microphone and a speaker for voice communication between the visitor and the owner.
  • the video module 214 includes a camera for capturing a video or picture of a visitor.
  • the first wireless transceiver circuit 215 is configured to transmit prompt information and communicate with the indoor receiving device 220.
  • the clock and power management circuit 216 is used for timing (eg, after the first central processor has stopped operating for more than a certain period of time) and for powering down, powering the switching.
  • the memory card 217 is used to store audio, video, and pictures.
  • the infrared human body sensing probe 218 is used to sense trigger information.
  • the indoor receiving device 220 is configured to receive prompt information from the outdoor unit 210, and when the owner is at home, is used to prompt the owner to have a visitor and perform voice communication with the visitor by ringing, voice, and when the owner goes out, Connecting to the cloud server 240, a message prompting the guest to ring the doorbell is pushed to the client 250, so that the host can view the visitor through the client 250 and perform voice communication with the visitor.
  • the indoor receiving device 220 can be any device with network access capability, including but not limited to: a network hard disk, a TV box, a TV stick, a set top box, a router, a smart TV, a network camera, and the like.
  • the indoor receiving device 220 is connected to the Internet through the router 230, and is registered to the cloud server 240 through the bound account, and is associated with the client 250 registered on the cloud server 240.
  • the indoor receiving device 220 pushes a message prompting the guest to ring the door to the client 250 by sending information (for example, in the form of voice or picture, etc.), and when the owner views the visitor, the video or picture of the visitor may be sent to the owner. You can see the face of the visitor.
  • the indoor receiving device 220 includes a second central processing unit 221, a second button module 222 coupled to the second central processing unit 221, and a second coupled to the second central processing unit 221.
  • the audio module 223 is coupled to the second wireless transceiver circuit 224 of the second central processing unit 221.
  • a connection module 225 coupled to the second central processor 221.
  • the second central processing unit 221 is an embedded central processing unit for controlling the second button module 222, the second audio module 223, the second wireless transceiver circuit 224, and the connection module 225.
  • the second button module 222 is configured to respond to the prompt information of the first button module 212.
  • the second audio module 223 includes a speaker and a microphone for prompting the host to have a guest and to communicate with the visitor by ringing.
  • the second radio transceiver circuit 224 is configured to receive prompt information (eg, a button, a voice, a video, a picture, etc.) sent by the first wireless transceiver circuit 215, and drive the second audio module 223 to emit a sound, where the second radio transceiver circuit 224 and The first radio transceiver circuit 215 is paired and the two are connected by a wireless connection.
  • the connection module 225 can be a WIFI or wired Ethernet circuit for connecting the indoor receiving device 220 to the cloud server 240 via the router 230.
  • the indoor receiving device 220 is connected to the router 230 via a WIFI connection mode or a wired network interface, and the router 230 is configured to connect the indoor receiving device 220 to the cloud server 240.
  • the cloud server 240 is used for communication between the indoor receiving device 220 and the client 250.
  • the client 250 is configured to receive, when the owner goes out, a message that is triggered by the indoor receiving device 220 to prompt the guest to press the doorbell or the infrared human body sensing probe 218, the alarm information of the wireless alarm 260, and the like.
  • the video or picture of the visitor collected by the video module 214 of the outdoor unit 210 is viewed while communicating with the visitor.
  • the wireless alarm 260 is configured to generate an alert message.
  • the indoor receiving device 220 can also externally connect various wireless sensors (for example, smoke, door magnets, and control switches, etc.) through the radio frequency portion coupled to the outdoor unit 210, and when an alarm occurs, Send a push message to the owner.
  • various wireless sensors for example, smoke, door magnets, and control switches, etc.
  • the owner can remotely control the corresponding home power supply through the client.
  • FIG. 3 is a specific flowchart of an operation method 300 for an Internet-based cloud video doorbell according to an embodiment of the present invention. As shown in FIG. 3, the operation method 300 includes the following steps:
  • Step 302 The visitor presses the first button module 212 of the outdoor unit 210 or triggers infrared human body sensing
  • the probe 218 generates prompt information (for example, a button, a voice, a video, a picture, etc.), so that the first central processing unit 211 switches from the deep sleep state to the normal working state, and turns on the power supply of the first wireless transceiver circuit 215.
  • Step 304 The prompt information (for example, a button, a voice, a video, a picture, etc.) is transmitted to the indoor receiving device 220 by the first wireless transceiver circuit 215, and the second central processing unit 221 drives the second audio module 223 to emit a sound.
  • the prompt information for example, a button, a voice, a video, a picture, etc.
  • Step 306 The control instruction is sent by the indoor receiving device 220 to the first central processing unit 211, so that the first central processing unit 211 turns on the power supply of the first audio module 213 and the video module 214, or is automatically turned on by the first central processing unit 211. Power is supplied to the first audio module 213 and the video module 214.
  • Step 308 If the owner is at home, the owner responds to the prompt information by the second button module 122, so that the host and the visitor communicate with each other through the first audio module 213 and the second audio module 214; if the owner is not at home, the response is unresponsive (outdoor The machine 210 automatically enters the timing recording, recording, and filming state).
  • Step 310 The indoor receiving device 220 is connected to the cloud server 240, and pushes a message prompting the guest to ring the door to the client 250, so that the host views the visitor through the client 250 and performs voice communication with the visitor.
  • the indoor receiving device 220 pushes the message prompting the visitor to the client 250 by sending the information, and when the owner views the visitor, sends the video or picture of the visitor, so that the owner can see the face of the visitor.
  • Step 312 After the communication is completed, the first central processing unit 211 receives the sleep instruction sent by the indoor receiving device 220, or after the first central processing unit 211 stops normal operation for more than a certain time, the first central processing unit 211 turns off the control first.
  • the power supply of the audio module 213, the video module 214, and the first wireless transceiver circuit 215 enters a deep sleep state.
  • the indoor receiving device 220 is connected to the Internet through a router, and is registered to the cloud server 240 through the bound account, and is associated with the client 250 registered on the cloud server 240.
  • the outdoor unit adopts a low-power wireless camera and can be powered by a battery (usually normal use period of 4-5 months). Thanks to wireless technology communication, the coverage is large, and there is no need to drill holes in the wall, which greatly reduces the complexity of the construction. In addition, even if the owner is not at home, he can know someone to visit through the mobile phone anytime and anywhere, and can communicate with the visitors in real time.

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Abstract

本发明提供一种基于互联网的云可视门铃系统,包括:室外机,用于产生提示信息,采集访客的视频或图片,与室内接收装置进行通讯,还用于访客与主人进行语音沟通;室内接收装置,用于从室外机接收提示信息,在主人在家时,通过响铃、语音提示主人有访客并与访客进行语音沟通,在主人外出时,连接到服务器,将提示有访客按门铃的消息推送到客户端,使主人透过客户端查看访客并与访客进行语音沟通;服务器,用于室内接收装置与客户端之间的通讯;以及客户端,用于在主人外出时,接收室内接收装置推送的提示有访客按门铃的消息,查看室外机采集的访客的视频或图片,同时与访客进行语音沟通。在该系统中,室外机采用低功耗无线摄像机,可通过电池供电,且施工简单。

Description

基于互联网的云可视门铃系统及其操作方法 技术领域
本发明涉及电子技术领域,并且特别涉及一种基于互联网的云可视门铃系统及其操作方法。
背景技术
随着计算机网络技术的迅猛发展以及个人对家庭生活数字化、信息化的追求,智能家居已发展成为当前的一项热门技术。智能家居技术是实现家庭设备数字化的关键性技术,凭借这种技术,可以将家庭中的所有家电设备连接成一个成体,实现随时随地的设备互联和信息传递。
在现有技术中,主要有两种基于WIFI的门铃系统。一种是基于WIFI的电子猫眼系统,这种系统的室外机(门外侧)是一个带摄像头、语音对讲及按钮的镜头板,通过电子连线接入到室内(门内侧)的具备WIFI功能的接收器。接收器通过家中WIFI路由器接入到互联网,当有访客按下门铃时,可以通过室内接收器将音频视频发送到主人的手机,还可以进行双向对讲。这种方式的缺点是:由于接收器需要外部供电或采用锂电池供电,而WIFI功耗比较大,重新断电再上电连接时间比较长,不能完全进入省电状态,导致电池寿命比较短,一般工作一个月的时间就要对电池进行充电。或者只能采取外接供电方式,但有些国家规定住宅门不能引入外部电源。另外,WIFI使用的ISM频段已经比较拥挤,通信距离有限,如果住宅大门距离客厅路由器距离比较远的话,会影响使用效果。
另外一种现有门铃系统的室外机是基于WIFI的具有语音对讲功能的网络摄像机。网络摄像机可直接接入室内WIFI路由器再连接到互联网,实现访客通过门铃与主人手机的音频视频通讯。在这种系统中,室外机需要外部持续供 电。这种方式的缺点是:由于WIFI功耗比较大,重新断电再上电连接时间比较长,不能完全进入省电状态,只能采取外接供电方式解决。另外,WIFI所使用的ISM频段已经比较拥挤,通信距离有限,而室外机只能固定在外墙上面,WIFI信号衰减比较大,影响使用效果。此外,在这种系统中,室内没有单独的接收装置,即使主人在家中,也有可能因为手机没有开机导致不知道有客人来访。
因此,需要一种改进的云可视门铃系统以解决上述技术问题。
发明内容
本发明的目的在于提供基于互联网的云可视门铃系统及其操作方法。
本发明实施例提供一种基于互联网的云可视门铃系统,包括:室外机,用于产生提示信息,采集访客的视频或图片,与室内接收装置进行通讯,还用于所述访客与主人进行语音沟通;所述室内接收装置,耦合与所述室外机,用于从所述室外机接收所述提示信息,在所述主人在家时,通过响铃、语音提示所述主人有所述访客并与所述访客进行语音沟通;在所述主人外出时,连接到服务器,将提示有访客按门铃的消息推送到客户端,使所述主人透过所述客户端查看所述访客并与所述访客进行语音沟通;路由器,耦合于所述室内接收装置,用于将所述室内接收装置连接到所述云端服务器;所述云端服务器,耦合于所述路由器,用于所述室内接收装置与所述客户端之间的通讯;以及所述客户端,耦合于所述云端服务器,用于在所述主人外出时,接收所述室内接收装置推送的所述提示有访客按门铃的消息,查看所述室外机采集的所述访客的所述视频或图片,同时与所述访客进行语音沟通,其中,所述室外机包括第一中央处理器,在未有所述访客时,所述第一中央处理器处于深度休眠状态;在有所述访客时,所述第一中央处理器从所述深度休眠状态切换回正常工作状态。
优选地,所述室外机还包括:第一按键模块,耦合于所述第一中央处理器,用于产生所述提示信息;第一音频模块,耦合于所述第一中央处理器,用于所述访客与所述主人进行语音沟通;视频模块,耦合于所述第一中央处理器,用 于采集所述访客的所述视频或图片;第一无线收发电路,用于传送所述提示信息,与所述室内接收装置进行通讯;时钟和供电管理电路,用于计时和供电、断电的切换;存储卡,用于存储音频、所述视频和所述图片;以及红外人体感应探头,用于感应触发信息。
优选地,所述第一中央处理器是低功耗的中央处理器,用于控制所述第一音频模块、所述视频模块以及所述第一无线收发电路的供电,其中,在未有所述访客时,所述第一中央处理器处于所述深度休眠状态,停止对所述第一音频模块、所述视频模块以及所述第一无线收发电路供电;当所述第一中央处理器检测到所述第一按键模块被按下或者所述红外人体感应探头被触发时,所述第一中央处理器从所述深度休眠状态切换回所述正常工作状态,开启所述第一无线收发电路的供电,和所述室内接收装置进行通讯,并根据所述室内接收装置的控制命令,确定是否需要打开所述第一音频模块和所述视频模块的供电,其中,当超出一定时间未有收到所述室内接收装置的指令时,所述第一中央处理器开启所述第一音频模块和所述视频模块的供电,提示所述访客留言,将所述音频、所述视频和所述图片保存在所述存储卡中,并在一定时间内进入自动休眠状态;以及当所述第一中央处理器收到所述室内接收装置的休眠指令时,或者所述第一中央处理器停止正常工作超过一定时间之后,所述第一中央处理器关闭控制所述第一音频模块、所述视频模块以及所述第一无线收发电路的供电,进入所述深度休眠状态。
优选地,所述室内接收装置包括:第二中央处理器,用于控制第二按键模块、第二音频模块、第二无线收发电路以及连接模块;第二按键模块,耦合于所述第二中央处理器,用于响应所述提示信息;第二音频模块,耦合于所述第二中央处理器,用于响铃提示所述主人有所述访客并与所述访客进行语音沟通;第二无线电收发电路,耦合于所述第二中央处理器,用于接收第一无线收发电路传来的提示信息,驱动第二音频模块发出声音;以及连接模块,耦合于所述第二中央处理器,用于通过将所述室内接收装置连接到所述云端服务器。
优选地,所述室内接收装置通过所述路由器连接到互联网,并通过绑定的账号注册到所述云端服务器,同时关联注册到所述云端服务器的所述客户端。
优选地,所述室内接收装置采用发送信息的方式将所述提示有访客按门铃的消息推送到所述客户端,且在所述主人查看所述访客时,发送所述访客的所述视频或所述图片。
本发明实施例提供一种基于互联网的云可视门铃操作方法,包括:访客按下室外机的第一按键模块或触发红外人体感应探头,产生提示信息,使所述室外机的第一中央处理器从深度休眠状态切换回正常工作状态,开启所述室外机的第一无线收发电路的供电;由所述第一无线收发电路将所述提示信息传送到室内接收装置,所述室内接收装置的第二中央处理器驱动所述室内接收装置的第二音频模块发出声音;由所述室内接收装置将控制指令发送到所述第一中央处理器,使所述第一中央处理器打开所述室外机的第一音频模块和所述室外机的视频模块的供电;若主人在家,则所述主人通过所述室内接收装置的第二按键模块来响应所述提示信息,使所述主人与所述访客通过所述第一音频模块和所述第二音频模块进行语音沟通;以及若所述主人不在家,则所述室内接收装置连接到云端服务器,将提示有访客按门铃的消息推送到客户端,使所述主人透过所述客户端查看所述访客并与所述访客进行语音沟通。
优选地,还包括:沟通完成后,所述第一中央处理器收到所述室内接收装置发送过来的休眠指令,关闭控制所述第一音频模块、所述视频模块以及所述第一无线收发电路的供电,进入所述深度休眠状态;以及所述第一中央处理器停止正常工作超过一定时间之后,关闭控制所述第一音频模块、所述视频模块以及所述第一无线收发电路的供电,进入所述深度休眠状态。
优选地,所述室内接收装置通过路由器连接到互联网,并通过绑定的账号注册到所述云端服务器,同时关联注册到所述云端服务器的所述客户端。
优选地,所述室内接收装置采用发送信息的方式将所述提示有访客按门铃的消息推送到所述客户端,且在所述主人查看所述访客时,发送所述访客的所 述视频或所述图片。
在本发明提供的基于互联网的云可视门铃系统及其操作方法中,室外机采用低功耗无线摄像机,可通过电池供电(一般正常使用周期4-5个月),由于采用无线技术通讯,覆盖范围大,不需在墙上钻孔装线,很大程度上减小了施工的复杂度。此外,即使主人不在家,也能随时随地的通过手机知道有人来访,并能实时和来访者沟通。
附图说明
为了更清楚地说明本发明实施例或现有技术中的技术方案,下面将对实施例或现有技术描述中所需要使用的附图作简单地介绍,显而易见地,下面描述中的附图仅仅是本发明的一些实施例,对于本领域普通技术人员来讲,在不付出创造性劳动的前提下,还可以根据这些附图获得其他的附图。
图1所示是本发明一实施例提供的基于互联网的云可视门铃系统的网络拓扑图。
图2所示是本发明一实施例提供的基于互联网的云可视门铃系统的结构示意图。
图3所示是本发明一实施例提供的基于互联网技术的云可视门铃的操作方法的具体流程图。
具体实施方式
为了使本发明的目的、技术方案及优点更加清楚明白,以下结合附图及实施例,对本发明进行进一步详细说明。应当理解,此处所描述的具体实施例仅仅用以解释本发明,并不用于限定本发明。
图1所示是本发明一实施例提供的基于互联网的云可视门铃系统100的网络拓扑图。如图1所示,访客按下室外机(或触发红外人体感应探头),产生提示信息(例如,以文字、语音、视频、或图片等形式),使室外机从深度休眠状态切换回正常工作状态;室外机将提示信息传送到室内接收装置;若主人在家,则主人通过室内接收装置来响应提示信息,使主人与访客通过进行语音 沟通;以及若主人不在家,则室内接收装置通过路由器连接到云端服务器,将提示有访客按门铃的消息(例如,以文字、语音、或图片等形式)推送到客户端,使主人透过客户端查看访客并与访客进行语音沟通。若通过红外人体感应探头触发信息,则室外机自动启动录音、拍片、录像功能并保存在存储卡内,同时发送信息到室内接收装置,工作一段时间后再次进入深度休眠状态。
图2所示是本发明一实施例提供的基于互联网的云可视门铃系统200的结构示意图。如图2所示,系统200包括室外机210、耦合于室外机210的室内接收装置220、耦合于室内接收装置220的路由器230、耦合于路由器230的云端服务器240、耦合于云端服务器240的客户端250以及耦合与室内接收装置220的无线报警器260。
在本发明一实施例中,室外机210用于产生提示信息,采集访客的视频或图片,与室内接收装置220进行通讯,还用于访客与主人进行语音沟通。具体而言,室外机210包括第一中央处理器211、耦合于第一中央处理器211的第一按键模块212、耦合于第一中央处理器211的第一音频模块213、耦合于第一中央处理器211的视频模块214、耦合于第一中央处理器211的第一无线收发电路215、时钟和供电管理电路216、耦合于第一音频模块213和视频模块214的存储卡217以及耦合于第一中央处理器211的红外人体感应探头218。
在本发明一实施例中,第一中央处理器211是低功耗的中央处理器,用于控制第一音频模块213(例如,包含麦克风和喇叭)、视频模块214以及第一无线收发电路215的供电。具体而言,在未有访客时,第一中央处理器211处于深度休眠状态,停止对第一音频模块213、视频模块214以及第一无线收发电路215供电;当第一中央处理器211检测到第一按键模块212被按下时(例如,有客人来访)或红外人体感应探头218被触发时,第一中央处理器211从深度休眠状态切换回正常工作状态,开启第一无线收发电路215的供电,和室内接收装置220进行通讯,并根据室内接收装置220的控制命令,确定是否需要打开第一音频模块213和视频模块214的供电,其中,当超出一定时间未有 收到室内接收装置220的指令时,第一中央处理器211打开第一音频模块213和视频模块214的供电,提示访客留言,将音频、视频和图片保存在存储卡217中,并在一定时间内进入自动休眠状态;当第一中央处理器211收到室内接收装置220发送过来的休眠指令时,或者第一中央处理器211停止正常工作超过一定时间之后,第一中央处理器211关闭控制第一音频模块213、视频模块214以及第一无线收发电路215的供电,进入深度休眠状态。
在本发明一实施例中,第一按键模块212用于产生提示信息。第一音频模块213包括麦克风和喇叭,用于访客与主人进行语音沟通。视频模块214包括摄像头,用于采集访客的视频或图片。第一无线收发电路215用于传送提示信息,与室内接收装置220进行通讯。时钟和供电管理电路216用于计时(例如,第一中央处理器停止工作超过一定时间之后)和断电、供电的切换。存储卡217用于存储音频、视频和图片。红外人体感应探头218用于感应触发信息。
在本发明一实施例中,室内接收装置220用于从室外机210接收提示信息,在主人在家时,用于通过响铃、语音提示主人有访客并与访客进行语音沟通;在主人外出时,连接到云端服务器240,将提示有访客按门铃的消息推送到客户端250,使主人透过客户端250查看访客并与访客进行语音沟通。其中,室内接收装置220可以是一个具备网络接入能力的任何设备,包括但不限于:网络硬盘、电视盒、电视棒、机顶盒、路由器、智能电视、网络摄像机等等。其中,室内接收装置220通过路由器230连接到互联网,并通过绑定的账号注册到云端服务器240,同时关联注册到云端服务器240上的客户端250。室内接收装置220采用发送信息(例如,以语音或图片等形式)的方式将提示有访客按门铃的消息推送到客户端250,且在主人查看访客时,可以发送访客的视频或图片,使主人可看清楚来访者面孔即可。
具体而言,在本发明一实施例中,室内接收装置220包括第二中央处理器221、耦合于第二中央处理器221的第二按键模块222、耦合于第二中央处理器221的第二音频模块223、耦合于第二中央处理器221的第二无线收发电路224 以及耦合于第二中央处理器221的连接模块225。其中,第二中央处理器221是嵌入式中央处理器,用于控制第二按键模块222、第二音频模块223、第二无线收发电路224以及连接模块225。第二按键模块222用于响应第一按键模块212的提示信息。第二音频模块223包括喇叭和麦克风,用于通过响铃、语音提示主人有访客并与访客进行语音沟通。第二无线电收发电路224用于接收第一无线收发电路215传来的提示信息(例如,按键、语音、视频、图片等),驱动第二音频模块223发出声音,其中第二无线电收发电路224与第一无线电收发电路215配对使用,并且两者是通过无线连接方式连接。连接模块225可以是WIFI或有线以太网电路,用于通过路由器230将室内接收装置220连接到云端服务器240。
在本发明一实施例中,室内接收装置220通过WIFI连接方式或有线网络接口而连接到路由器230,路由器230用于将室内接收装置220连接到云端服务器240。
在本发明一实施例中,云端服务器240用于室内接收装置220与客户端250之间的通讯。在本发明一实施例中,客户端250用于在主人外出时,接收室内接收装置220推送的提示有访客按门铃或红外人体感应探头218的触发信息、无线报警器260的告警信息等消息,查看室外机210的视频模块214采集的访客的视频或图片,同时与访客进行语音沟通。在本发明一实施例中,无线报警器260用于产生告警消息。
在本发明一实施例中,室内接收装置220通过与室外机210耦合的射频部分,也可以外接各种无线传感器(例如,烟感、门磁及控制开关等),在有报警发生时,可以给主人发送推送信息。主人可以通过客户端远程控制对应的家居供电。
图3所示是本发明一实施例提供的基于互联网的云可视门铃的操作方法300的具体流程图。如图3所示,操作方法300包括以下步骤:
步骤302:访客按下室外机210的第一按键模块212或触发红外人体感应 探头218,产生提示信息(例如,按键、语音、视频、图片等),使第一中央处理器211从深度休眠状态切换回正常工作状态,开启第一无线收发电路215的供电。
步骤304:由第一无线收发电路215将提示信息(例如,按键、语音、视频、图片等)传送到室内接收装置220,第二中央处理器221驱动第二音频模块223发出声音。
步骤306:由室内接收装置220将控制指令发送到第一中央处理器211,使第一中央处理器211打开第一音频模块213和视频模块214的供电,或者由第一中央处理器211自动打开第一音频模块213和视频模块214的供电。
步骤308:若主人在家,则主人通过第二按键模块122来响应提示信息,使主人与访客通过第一音频模块213和第二音频模块214进行语音沟通;若主人不在家,则无响应(室外机210自动进入定时录音、录像、拍片状态)。
步骤310:室内接收装置220连接到云端服务器240,将提示有访客按门铃的消息推送到客户端250,使主人透过客户端250查看访客并与访客进行语音沟通。其中,室内接收装置220采用发送信息的方式将提示有访客按门铃的消息推送到客户端250,且在主人查看访客时,发送访客的视频或图片,使主人可看清楚来访者面孔即可。
步骤312:沟通完成后,第一中央处理器211收到室内接收装置220发送过来的休眠指令,或者第一中央处理器211停止正常工作超过一定时间之后,第一中央处理器211关闭控制第一音频模块213、视频模块214以及第一无线收发电路215的供电,进入深度休眠状态。
在本发明一实施例中,室内接收装置220通过路由器连接到互联网,并通过绑定的账号注册到云端服务器240,同时关联注册到云端服务器240上的客户端250。
有利地,在本发明提供的基于互联网的云可视门铃系统及其操作方法中,室外机采用低功耗无线摄像机,可通过电池供电(一般正常使用周期4-5个月), 由于采用无线技术通讯,覆盖范围大,不需在墙上钻孔装线,很大程度上减小了施工的复杂度。此外,即使主人不在家,也能随时随地的通过手机知道有人来访,并能实时和来访者沟通。
以上所述仅为本发明的较佳实施例而已,并不用以限制本发明,凡在本发明的精神和原则之内所作的任何修改、等同替换和改进等,均应包含在本发明的保护范围之内。

Claims (10)

  1. 一种基于互联网的云可视门铃系统,其特征在于,包括:
    室外机,用于产生提示信息,采集访客的视频或图片,与室内接收装置进行通讯,还用于所述访客与主人进行语音沟通;
    所述室内接收装置,耦合与所述室外机,用于从所述室外机接收所述提示信息,在所述主人在家时,通过响铃、语音提示所述主人有所述访客并与所述访客进行语音沟通;在所述主人外出时,连接到服务器,将提示有访客按门铃的消息推送到客户端,使所述主人透过所述客户端查看所述访客并与所述访客进行语音沟通;
    路由器,耦合于所述室内接收装置,用于将所述室内接收装置连接到所述云端服务器;
    所述云端服务器,耦合于所述路由器,用于所述室内接收装置与所述客户端之间的通讯;以及
    所述客户端,耦合于所述云端服务器,用于在所述主人外出时,接收所述室内接收装置推送的所述提示有访客按门铃的消息,查看所述室外机采集的所述访客的所述视频或图片,同时与所述访客进行语音沟通,
    其中,所述室外机包括第一中央处理器,在未有所述访客时,所述第一中央处理器处于深度休眠状态;在有所述访客时,所述第一中央处理器从所述深度休眠状态切换回正常工作状态。
  2. 如权利要求1所述的基于互联网的云可视门铃系统,其特征在于,所述室外机还包括:
    第一按键模块,耦合于所述第一中央处理器,用于产生所述提示信息;
    第一音频模块,耦合于所述第一中央处理器,用于所述访客与所述主人进行语音沟通;
    视频模块,耦合于所述第一中央处理器,用于采集所述访客的所述视频或图片;
    第一无线收发电路,用于传送所述提示信息,与所述室内接收装置进行通讯;
    时钟和供电管理电路,用于计时和供电、断电的切换;
    存储卡,用于存储音频、所述视频和所述图片;以及
    红外人体感应探头,用于感应触发信息。
  3. 如权利要求2所述的基于互联网的云可视门铃系统,其特征在于,所述第一中央处理器是低功耗的中央处理器,用于控制所述第一音频模块、所述视频模块以及所述第一无线收发电路的供电,其中,
    在未有所述访客时,所述第一中央处理器处于所述深度休眠状态,停止对所述第一音频模块、所述视频模块以及所述第一无线收发电路供电;
    当所述第一中央处理器检测到所述第一按键模块被按下或者所述红外人体感应探头被触发时,所述第一中央处理器从所述深度休眠状态切换回所述正常工作状态,开启所述第一无线收发电路的供电,和所述室内接收装置进行通讯,并根据所述室内接收装置的控制命令,确定是否需要打开所述第一音频模块和所述视频模块的供电,其中,当超出一定时间未有收到所述室内接收装置的指令时,所述第一中央处理器开启所述第一音频模块和所述视频模块的供电,提示所述访客留言,将所述音频、所述视频和所述图片保存在所述存储卡中,并在一定时间内进入自动休眠状态;以及
    当所述第一中央处理器收到所述室内接收装置的休眠指令时,或者所述第一中央处理器停止正常工作超过一定时间之后,所述第一中央处理器关闭控制所述第一音频模块、所述视频模块以及所述第一无线收发电路的供电,进入所述深度休眠状态。
  4. 如权利要求1所述的基于互联网的云可视门铃系统,其特征在于,所述室内接收装置包括:
    第二中央处理器,用于控制第二按键模块、第二音频模块、第二无线收发电路以及连接模块;
    第二按键模块,耦合于所述第二中央处理器,用于响应所述提示信息;
    第二音频模块,耦合于所述第二中央处理器,用于响铃提示所述主人有所述访客并与所述访客进行语音沟通;
    第二无线电收发电路,耦合于所述第二中央处理器,用于接收第一无线收发电路传来的提示信息,驱动第二音频模块发出声音;以及
    连接模块,耦合于所述第二中央处理器,用于通过将所述室内接收装置连接到所述云端服务器。
  5. 如权利要求1所述的基于互联网的云可视门铃系统,其特征在于,所述室内接收装置通过所述路由器连接到互联网,并通过绑定的账号注册到所述云端服务器,同时关联注册到所述云端服务器的所述客户端。
  6. 如权利要求1所述的基于互联网的云可视门铃系统,其特征在于,所述室内接收装置采用发送信息的方式将所述提示有访客按门铃的消息推送到所述客户端,且在所述主人查看所述访客时,发送所述访客的所述视频或所述图片。
  7. 一种基于互联网的云可视门铃操作方法,其特征在于,包括:
    访客按下室外机的第一按键模块或触发红外人体感应探头,产生提示信息,使所述室外机的第一中央处理器从深度休眠状态切换回正常工作状态,开启所述室外机的第一无线收发电路的供电;
    由所述第一无线收发电路将所述提示信息传送到室内接收装置,所述室内接收装置的第二中央处理器驱动所述室内接收装置的第二音频模块发出声音;
    由所述室内接收装置将控制指令发送到所述第一中央处理器,使所述第一中央处理器打开所述室外机的第一音频模块和所述室外机的视频模块的供电;
    若主人在家,则所述主人通过所述室内接收装置的第二按键模块来响应所述提示信息,使所述主人与所述访客通过所述第一音频模块和所述第二音频模块进行语音沟通;以及
    若所述主人不在家,则所述室内接收装置连接到云端服务器,将提示有访客按门铃的消息推送到客户端,使所述主人透过所述客户端查看所述访客并与 所述访客进行语音沟通。
  8. 如权利要求7所述的基于互联网的云可视门铃操作方法,其特征在于,还包括:
    沟通完成后,所述第一中央处理器收到所述室内接收装置发送过来的休眠指令,关闭控制所述第一音频模块、所述视频模块以及所述第一无线收发电路的供电,进入所述深度休眠状态;以及
    所述第一中央处理器停止正常工作超过一定时间之后,关闭控制所述第一音频模块、所述视频模块以及所述第一无线收发电路的供电,进入所述深度休眠状态。
  9. 如权利要求7所述的基于互联网的云可视门铃操作方法,其特征在于,所述室内接收装置通过路由器连接到互联网,并通过绑定的账号注册到所述云端服务器,同时关联注册到所述云端服务器的所述客户端。
  10. 如权利要求7所述的基于互联网的云可视门铃操作方法,其特征在于,所述室内接收装置采用发送信息的方式将所述提示有访客按门铃的消息推送到所述客户端,且在所述主人查看所述访客时,发送所述访客的所述视频或所述图片。
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