WO2017185654A1 - Intelligent gateway device and intelligent monitoring system - Google Patents

Abstract

An intelligent gateway device and an intelligent monitoring system, relating to the technical field of information. The intelligent gateway comprises an internal communication module (11), a central processing unit (12), an external communication module (13), and a power supply. The power supply is separately connected to the internal communication module (11), the external communication module (13), and the central processing unit (12) for supplying power. The central processing unit (12) is separately connected to the internal communication module (11) and the external communication module (13). By providing users with an intelligent gateway device with comprehensive interconnectivity and an intelligent response function, a remote control device can carry out unified uplink monitoring and downlink control over a plurality of intelligent devices.

Description

Intelligent gateway device and intelligent monitoring system

The present application claims priority to Chinese Patent Application No. 2016102652348, entitled "Intelligent Gateway Device and Intelligent Monitoring System", filed on April 26, 2016, the entire contents of which is incorporated herein by reference. In the application.

Technical field

The present application relates to the field of information technology, for example, to an intelligent gateway device and an intelligent monitoring system.

Background technique

With the rise of the Internet of Things technology, a large number of smart devices, such as smart home devices, have emerged. In the implementation process, the inventors found that in the related art, multiple smart devices in a set area (eg, a home) are independently monitored and cannot be uniformly monitored.

Summary of the invention

The embodiment of the invention provides an intelligent gateway device and an intelligent monitoring system to implement unified monitoring of multiple smart devices.

In a first aspect, an embodiment of the present invention provides an intelligent gateway device, including:

The intra-communication module is configured to connect to the smart device to obtain the monitoring information collected by the smart device, and as the uplink information, the uplink information is encapsulated according to the first communication protocol, and the uplink packet is obtained and transmitted to the next Central processor

The central processing unit is configured to be connected to the inbound communication module, configured to parse the uplink packet based on the first communication protocol, to obtain uplink plaintext monitoring information, and transmit the information to the following external communication module;

The external communication module is connected to the central processing unit and configured to connect to the remote control device to encapsulate the uplink plaintext monitoring information and transmit the same to the remote control device according to the second communication protocol;

a power source connected to the internal communication module, the external communication module, and the central processing unit, configured to supply power;

The external communication module is further configured to acquire a control instruction that is sent by the remote control device and used to control the smart device, and as the downlink information, perform the downlink information according to the second communication protocol. Encapsulating, obtaining a downlink message, and transmitting to the central processor;

The central processing unit is further configured to: parse the downlink packet according to the second communication protocol, obtain a downlink plaintext control instruction, and transmit the downlink plaintext control instruction to the intra-communication module;

The inbound communication module is further configured to encapsulate the downlink plaintext control instruction based on the first communication protocol and transmit the same to the smart device.

In the above solution, the intra-communication module may include at least one sub-module: a Wi-Fi sub-module, a ZigBee sub-module, a Z-Wave sub-module, and a Bluetooth sub-module;

The Wi-Fi sub-module is configured to connect to a high-power smart device;

The ZigBee sub-module, the Z-Wave sub-module, and the Bluetooth sub-module are all configured to connect to a low-power smart device;

Correspondingly, the first communication protocol may include at least one of the following: a Wi-Fi communication protocol, a ZigBee communication protocol, a Z-Wave communication protocol, and a Bluetooth communication protocol.

In the above solution, the outbound communication module may include: an Ethernet submodule and/or a 3G/4G submodule.

In the foregoing solution, the external communication module may be further configured to connect to the cloud server to encapsulate the uplink plaintext monitoring information and transmit the information to the cloud server according to the second communication protocol.

In the above solution, the smart gateway device may further include:

An alarm, respectively connected to the central processor and the power source, configured to perform an alarm according to an alarm instruction transmitted by the central processor;

Correspondingly, the central processing unit is further configured to generate an alarm instruction and transmit to the alarm device when monitoring that the uplink plaintext monitoring information meets a preset abnormal condition.

The smart gateway device may further include:

a tamper-proof switch connected to the central processor and the power source;

Correspondingly, the central processor is further configured to generate an alarm command and transmit to the alarm when detecting a switch state switch of the tamper switch.

In the above solution, the smart gateway device may further include:

An indicator light is respectively connected to the central processing unit and the power source, and configured to perform an abnormality indication according to an instruction instruction transmitted by the central processing unit;

Correspondingly, the central processing unit is further configured to generate an indication instruction and transmit to the indicator light when monitoring that the uplink plaintext monitoring information meets a preset abnormal condition.

In the above solution, the smart gateway device may further include:

A lithium battery is separately connected to the internal communication module, the external communication module, and the central processing unit.

In the above solution, the smart gateway device may further include:

Activating a button, respectively connected to the central processor and the power source, configured to transmit a push prompt signal to the central processor when in a pressed state;

Correspondingly, the central processing unit is further configured to trigger the operation of the internal communication module and the external communication module after a set time when the pressing prompt signal is acquired.

In a second aspect, an embodiment of the present invention provides an intelligent monitoring system, including:

The intelligent gateway device provided by any embodiment of the present invention is configured to connect the smart device to perform protocol conversion on the monitoring information collected by the smart device, and transmit the information to the remote control device described below, and is further configured to perform remote control on the following The control instruction generated by the device for controlling the smart device performs protocol conversion and is transmitted to the smart device;

a remote control device, connected to the smart gateway device, configured to acquire the protocol conversion processed monitoring information transmitted by the smart gateway device, and configured to generate a control instruction for controlling the smart device, and transmit To the smart gateway device.

In the above solution, it may also include:

a router configured to connect to the smart gateway device and connect the remote control device to the Internet;

Correspondingly, the smart gateway device and the remote control device interact based on the router and the Internet.

The router may also be configured to connect to the smart play device;

Correspondingly, the smart gateway device may be further configured to transmit the monitoring information processed by the protocol conversion to the smart playback device through the router.

The system can also include:

The cloud server accessing the Internet is configured to store the protocol conversion processed monitoring information transmitted by the smart gateway device;

Correspondingly, the smart gateway device is configured to transmit, by the router and the Internet, monitoring information processed by the protocol conversion to the cloud server.

The remote control device may be further configured to send a monitoring information acquisition request to the cloud server through the Internet;

The cloud server may be further configured to return, after obtaining the monitoring information acquisition request, the monitoring information processed by the protocol conversion to the remote control device.

The system can also include:

The alarm linkage center is connected to the cloud server, and configured to perform alarm linkage processing according to the protocol conversion processed monitoring information transmitted by the cloud server.

The intelligent gateway device provided by the embodiment of the present invention provides an intelligent gateway device with comprehensive interconnection and intelligent response for the user. On the one hand, the uplink communication module of the smart device can implement uplink monitoring information with the smart device. Interacting, and performing protocol conversion processing through the central processing unit, and then transmitting to the remote control device through the external communication module, realizing uplink monitoring of the remote control device to multiple intelligent devices; on the other hand, acquiring the remote control device through the external communication module The downlink control command for controlling the smart device is performed, and the protocol conversion process is performed by the central processing unit, and then transmitted to the smart device by the internal communication module, thereby implementing the downlink of the remote control device to the plurality of smart devices. control.

BRIEF abstract

The at least one embodiment is exemplified by the accompanying drawings in the accompanying drawings. It is specifically stated that the figures in the drawings do not constitute a proportional limitation.

FIG. 1 is a schematic structural diagram of an intelligent gateway device according to Embodiment 1 of the present invention;

2 is a schematic diagram of an inbound communication module and a smart device in a connected setting area in an intelligent gateway device according to Embodiment 1 of the present invention;

3 is a schematic structural diagram of an intelligent gateway device according to Embodiment 2 of the present invention;

4 is a schematic structural diagram of an intelligent monitoring system according to Embodiment 3 of the present invention;

FIG. 5 is a schematic structural diagram of an example of an intelligent monitoring system according to Embodiment 3 of the present invention; FIG.

FIG. 6 is a schematic structural diagram of an intelligent monitoring system according to Embodiment 4 of the present invention.

Embodiments of the invention

The technical solutions in the embodiments of the present invention will be described in detail below with reference to the accompanying drawings. It is obvious that the described embodiments are a part of the embodiments of the present invention, but not all of the embodiments. It is to be understood that the embodiments described herein are merely illustrative of the invention, and are not intended to limit the scope of the invention. The embodiments are all within the scope of protection of the present invention. For the convenience of description, only some but not all of the contents related to the present invention are shown in the drawings.

Embodiment 1

FIG. 1 is a schematic structural diagram of an intelligent gateway device according to Embodiment 1 of the present invention. An intelligent gateway device is typically configured in an area to which multiple smart devices that need to be uniformly monitored belong. For example, a home contains multiple smart devices that need to be uniformly monitored, and the smart gateway device is configured in the home.

The intelligent gateway includes an inbound communication module 11, a central processing unit 12, an external communication module 13, and a power source (not shown). The power source is separately connected to the inbound communication module 11, the outbound communication module 13, and the central processing unit 12, and is configured to supply power. The central processing unit 12 is connected to the inbound communication module 11 and the external communication module 13, respectively.

The intra-communication module 11 is configured to connect the smart devices in the set area (for example, each smart home device in a home) to obtain the monitoring information collected by the smart device, as the uplink information, based on the first communication. The protocol encapsulates the uplink information, obtains an uplink packet, and transmits the uplink packet to the central processing unit 12; the central processing unit 12 is configured to parse the uplink packet based on the first communication protocol to obtain an uplink packet. The plaintext monitoring information is transmitted to the external communication module 13; the external communication module 13 is configured to connect to the remote control device to encapsulate the uplink plaintext monitoring information and transmit to the remote control device based on the second communication protocol. .

The external communication module 13 is further configured to acquire a control instruction that is sent by the remote control device and used to control the smart device, and as the downlink information, perform the downlink information according to the second communication protocol. Encapsulating, obtaining a downlink message, and transmitting to the central processing unit 12; the central processing unit 12 is further configured to parse the downlink message according to the second communication protocol, to obtain a downlink plaintext control instruction And transmitting to the intra-communication module 11; the intra-communication module 11 is further configured to encapsulate the downlink plaintext control instruction and transmit to the smart device based on the first communication protocol.

In short, the intelligent gateway device provided by the embodiment implements uplink monitoring and downlink control of the smart device in the set area by the remote control device, and the role of the central processor in the smart gateway device is to perform the internal communication module. A conversion between the corresponding first communication protocol and the second communication protocol corresponding to the external communication module.

The intra-communication module 11 may include at least one sub-module as follows: Wi-Fi sub-module, ZigBee a sub-module, a Z-Wave sub-module, and a Bluetooth sub-module; wherein the Wi-Fi sub-module is configured to connect a high-power smart device in the set area; a ZigBee sub-module, a Z-Wave sub-module, and a Bluetooth Submodules each configured to connect to a low power smart device in the set area;

Correspondingly, the first communication protocol comprises at least one of the following: a Wi-Fi communication protocol, a ZigBee communication protocol, a Z-Wave communication protocol, and a Bluetooth communication protocol.

The advantages of this setting are: improving the versatility and compatibility of the smart gateway device, establishing a connection with various smart devices in the set area, and realizing the uplink control device to uplink monitoring of various smart devices in the set area. And down control.

The high-power smart device may include: a smart camera; the low-power smart device may include at least one of the following: a door and window sensor, a motion sensor, a smoke sensor, a smart meter, a smart thermostat, a smart socket, Smart lights and smart door locks.

As an implementation manner, the external communication module 13 may include: an Ethernet submodule.

As another implementation manner, the outbound communication module 13 may include: a 3G/4G submodule.

The outbound communication module 13 may include: a 3G/4G submodule (see FIG. 1) in addition to the Ethernet submodule. The Ethernet sub-module is used as the default external communication module, and the 3G/4G sub-module is used as the backup external communication module.

The advantage of this setting is that the reliability of the uplink monitoring information and the downlink control command between the intelligent gateway device and the remote control device is improved.

For example, please refer to FIG. 2 , which is a schematic diagram of an inbound communication module and a smart device in a connected setting area in an intelligent gateway device according to Embodiment 1 of the present invention. The setting area is a home, and the internal communication module includes: a Wi-Fi sub-module, a ZigBee sub-module, a Z-Wave sub-module, and a Bluetooth sub-module; wherein the Wi-Fi sub-module is configured to connect to the high in the home Smart devices for power consumption, which can be smart cameras; ZigBee sub-modules, Z-Wave sub-modules, and Bluetooth sub-modules, all configured Connecting the low-power smart device in the home, the ZigBee sub-module is configured to connect to the smart meter, smart thermostat, smart socket and smart light in the home; the Z-Wave sub-module is configured to connect to the smart device A smart door lock within the home; the Bluetooth sub-module is configured to connect the door and window sensor, motion sensor, and smoke sensor within the home.

The following is a brief introduction to the uplink monitoring information and the downstream control commands.

For the smart camera, the uplink monitoring information may be a monitoring image of the corresponding imaging area; the control commands issued by the remote control device for controlling the smart camera may be: a power-on control command, a shutdown control command, and a rotation of the smart camera. Angle control instructions, etc.

For the smart meter, the uplink monitoring information may be its own reading; the control command issued by the remote control device for controlling the smart meter may be: a power-on control command, a shutdown control command, and a control command for reading the time interval of the reading. .

For the intelligent thermostat, the uplink monitoring information may be its own reading; the control command issued by the remote control device for controlling the intelligent thermostat may be: a power-on control command, a shutdown control command, and a user-set The desired temperature is used as a temperature control command or the like.

For the smart socket, the uplink monitoring information may be the working status information (for example, whether the power is turned on or being supplied to other devices, etc.); the control command issued by the remote control device for controlling the smart socket may be: a power-on control command, The shutdown control command and the power supply time set by the user are used as power supply control commands.

For the smart light, the uplink monitoring information may be working status information (for example, whether it is turned on or not in the energy saving mode, etc.); the control command issued by the remote control device for controlling the smart light may be: power on control command, shutdown Control commands, control commands for entering night work mode or energy saving work mode, etc.

For smart door locks, the upstream monitoring information can be open or closed. The information, and the unlocking information input by the user, etc.; the control command issued by the remote control device for controlling the smart door lock may be: a power-on control command, a shutdown control command, and an entry-out intrusion prevention mode or a violent unlocking alarm working mode. Control instructions, etc.

For the door and window sensor, the uplink monitoring information may be the sensing signal collected by itself; the control command issued by the remote control device for controlling the door and window sensor may be: a power-on control command, a shutdown control command, and an outgoing anti-intrusion alarm. The working mode or the control command of the doorbell prompting the working mode at home.

For the motion sensor, the uplink monitoring information may be the sensing signal collected by itself; the control command issued by the remote control device for controlling the motion sensor may be: a power-on control command, and a shutdown control command.

For the smoke sensor, the uplink monitoring information may be the smoke concentration collected by itself; the control command issued by the remote control device for controlling the smoke sensor may be: a power-on control command, and a shutdown control command.

The technical solution of the embodiment provides the user with a comprehensive interconnection and intelligent response intelligent gateway device. On the one hand, through the internal communication module in the intelligent gateway device, uplink monitoring of the smart device in the set area can be realized. The information is exchanged and processed by the central processor for protocol conversion, and then transmitted to the remote control device through the external communication module, thereby realizing the uplink control device to monitor the uplink of multiple smart devices in the set area; The communication module acquires a downlink control instruction issued by the remote control device for controlling the downlink of the smart device, and performs protocol conversion processing by the central processing unit, and then transmits the internal communication module to the smart device to implement the remote control device. Downlink control of multiple smart devices in the set area.

In the above solution, the external communication module may be further configured to connect to the cloud server to encapsulate the uplink plaintext monitoring information and transmit the information to the cloud service based on the second communication protocol. Device. The cloud server provides monitoring information storage for remote control devices.

The advantage of this setting is that the hardware requirements of the remote control device are reduced, and the remote control device can obtain the monitoring information of the smart device that the user is interested in or needs to focus on monitoring from the cloud server according to the actual needs of the user, and the flexibility is higher.

Embodiment 2

FIG. 3 is a schematic structural diagram of an intelligent gateway device according to Embodiment 2 of the present invention. The embodiment of the present invention, the smart gateway device further includes: an alarm device 14 respectively connected to the central processing unit 12 and the power source, configured to perform an alarm according to an alarm instruction transmitted by the central processing unit 12;

Correspondingly, the central processing unit 12 is further configured to generate an alarm instruction and transmit to the alarm device 14 when monitoring that the uplink plaintext monitoring information meets a preset abnormal condition.

For example, for a smoke sensor, the upstream monitoring information may be the smoke concentration collected by itself; the central processor 12 triggers the alarm 14 to alarm when the monitored smoke concentration exceeds the set threshold.

The advantage of the setting is that the smart gateway device is typically configured in an area to which multiple smart devices that need to be uniformly monitored belong, so that the user in the area to which the smart gateway device belongs can be informed of the smart device in the area in time. abnormal situation.

In the above solution, the smart gateway device may further include: a tamper-proof switch 15 is respectively connected to the central processing unit 12 and the power source;

Correspondingly, the central processing unit 12 is further configured to generate an alarm command and transmit to the alarm device 14 when detecting the switching state switching of the tamper-proof switch 15.

The advantage of this setting is that when the smart gateway device is violently disassembled, a corresponding alarm prompt can be made.

In the above solution, the smart gateway device may further include: an indicator light 16 and the central processing The device 12 and the power source are respectively connected, and configured to perform an abnormality indication according to the instruction instruction transmitted by the central processing unit 12;

Correspondingly, the central processing unit 12 is further configured to generate an indication instruction and transmit to the indicator light 16 when monitoring that the uplink plaintext monitoring information meets a preset abnormal condition.

For example, for a smoke sensor, the upstream monitoring information may be the smoke concentration collected by itself; the central processor 12 triggers the indicator light 16 to indicate when the monitored smoke concentration exceeds the set threshold.

The advantage of the setting is that the smart gateway device is typically configured in an area to which multiple smart devices that need to be uniformly monitored belong, so that the user in the area to which the smart gateway device belongs can be informed of the smart device in the area in time. abnormal situation.

In the above solution, the smart gateway device may further include: a lithium battery 17, respectively connected to the inbound communication module 11, the external communication module 13, and the central processing unit 12, configured to be in the power supply Power is not supplied when power is not supplied.

The advantage of this setting is that the reliability of the power supply of the smart gateway device is improved.

In the above solution, the smart gateway device may further include: an activation button 18 respectively connected to the central processing unit 12 and the power source, configured to be in a pressed state to the central processor 12 transmission presses the prompt signal;

Correspondingly, the central processing unit 12 is further configured to trigger the operation of the internal communication module 11 and the external communication module 13 after a set time when the pressing prompt signal is acquired.

The advantage of this setting is that the user presses the start button and leaves the setting area. After the set time, the smart gateway device enters the defensive mode, that is, after the set time, the remote control device can be realized through the intelligent gateway device. The remote monitoring of the smart device in the fixed area effectively avoids the false alarm of a specific type of smart device (for example, a motion sensor or a door and window sensor) caused by the user leaving the set area after the user presses the start button.

In the above solution, the smart gateway device may further include: a storage module 19, respectively connected to the central processing unit 12 and the power source, configured to locally store the uplink message.

The storage module 19 may include at least one of the following: a USB interface, an SD card, a DDR (Double Data Rate Double Rate Synchronous Dynamic Random Access Memory), and an eMMC NAND (Embedded Multi Media Card).

In the above solution, the smart gateway device may further include: a touch screen 20 and a display screen 21, respectively connected to the central processing unit 12 and the power source, configured to implement human-computer interaction. For example, the user can input a name editing instruction of an icon corresponding to the door and window sensor through the touch screen 20.

In the above solution, the smart gateway device may further include: a camera and a microphone, respectively connected to the central processing unit 12 and the power source, configured to implement interaction between a user in the setting area and an external management personnel.

Embodiment 3

FIG. 4 is a schematic structural diagram of an intelligent monitoring system according to Embodiment 3 of the present invention. The system includes: the smart gateway device 31 and the remote control device 32 provided by any embodiment of the present invention.

The smart gateway device 31 is configured to connect the smart device in the setting area to perform protocol conversion on the monitoring information collected by the smart device, and transmit the same to the remote control device 32, and is further configured to generate the remote control device 32. The control command for controlling the smart device performs protocol conversion and is transmitted to the smart device; the remote control device 32 is connected to the smart gateway device 31, and is configured to acquire the protocol transmitted by the smart gateway device 31. The converted processing information is further configured to generate a control command for controlling the smart device and transmit to the smart gateway device 31.

When implemented, the router 33 can be added to the intelligent monitoring system. The router 33 can be configured to be disposed in the setting area, connected to the smart gateway device 31, and connect the remote control device 32 to the Internet;

Correspondingly, the smart gateway device 31 and the remote control device 32 interact based on the router 33 and the Internet. That is, the smart gateway device 31 transmits uplink monitoring information to the remote control device 32 based on the router 33 and the Internet; the remote control device 32 will downlink based on the Internet and the router 33. The control command is transmitted to the smart gateway device 31.

The technical solution of the embodiment, with the intelligent gateway device as the core, establishes an internal network with the smart device in the set area by means of wireless (such as Wi-Fi, ZigBee, Z-Wave or Bluetooth), through the router and the remote control device. The connection is established, and the unified uplink monitoring and downlink control of the plurality of smart devices in the set area by the remote control device are realized.

Instance

FIG. 5 is a schematic structural diagram of an example of an intelligent monitoring system according to Embodiment 3 of the present invention. The setting area is a home, and each smart device in the home connected to the smart gateway device 31 can refer to FIG. 2. The smart gateway device 31, the router 33, and the remote control device 32 will not be described again.

The difference is that the router 33 is further configured to connect to a smart play device (such as a smart TV) in the set area; correspondingly, the smart gateway device 31 is further configured to monitor after being converted by the protocol. Information is transmitted to the smart play device through the router 33.

The main features of the system include:

1. Intelligent security function: The remote control device can obtain the monitoring information of the door and window sensor, motion sensor, smoke sensor or smart door lock transmission of the home intranet in real time, and discover the safety hazards in the home in time.

2. Intelligent control function: realize remote control of smart meters, intelligent thermostats, smart sockets and smart lights for the home intranet.

3. Intelligent monitoring function: The remote control device obtains the video and audio transmitted by the smart camera of the home intranet in real time, and realizes remote monitoring such as elderly or children in the family.

4. Intelligent entertainment function: For example, when using the K song function on the smart TV, the smart light in the home can automatically display the intelligent lighting effect according to the song content.

5. Intelligent control functions in the local area network: For example, based on a smart TV with far-field voice control function, other smart devices in the home can be directly controlled by voice during watching TV.

6. Custom function: Users can set the trigger linkage result they want to achieve according to their own preferences.

Embodiment 4

FIG. 6 is a schematic structural diagram of an intelligent monitoring system according to Embodiment 4 of the present invention. The system provided in this embodiment further includes: the cloud server 44 accesses the Internet, and is configured to store the protocol conversion processed monitoring information transmitted by the smart gateway device 41, which is available for remote use. Control device 42 acquires.

Correspondingly, the smart gateway device 41 is configured to transmit the monitoring information processed by the protocol conversion to the cloud server 44 through the router 43 and the Internet.

The remote control device 42 may be further configured to send a monitoring information acquisition request to the cloud server 44 through the Internet;

The cloud server 44 is further configured to return the monitoring information after the protocol conversion processing to the remote control device 42 when the monitoring information acquisition request is acquired.

The advantage of this setting is that the hardware requirements of the remote control device are reduced, and the remote control device can obtain the monitoring information of the smart device that the user is interested in or needs to focus on monitoring from the cloud server according to the actual needs of the user, and the flexibility is higher.

The system may further include: an alarm linkage center 45, connected to the cloud server 44, configured to perform alarm linkage processing according to the protocol conversion processed monitoring information transmitted by the cloud server 44, thereby implementing an intelligent linkage family Security systems or community security systems or local public security, medical, or fire protection systems are handled in a timely manner.

The electronic device of the embodiment of the present application exists in various forms, including but not limited to:

(1) Mobile communication devices: These devices are characterized by mobile communication functions and are mainly aimed at providing voice and data communication. Such terminals include: smart phones (such as iPhone), multimedia phones, functional phones, and low-end phones.

(2) Ultra-mobile personal computer equipment: This type of equipment belongs to the category of personal computers, has computing and processing functions, and generally has mobile Internet access. Such terminals include: PDAs, MIDs, and UMPC devices, such as the iPad.

(3) Portable entertainment devices: These devices can display and play multimedia content. Such devices include: audio, video players (such as iPod), handheld game consoles, e-books, and smart toys and portable car navigation devices.

(4) Server: A device that provides computing services. The server consists of a processor, a hard disk, a memory, a system bus, etc. The server is similar to a general-purpose computer architecture, but because of the need to provide highly reliable services, processing power and stability High reliability in terms of reliability, security, scalability, and manageability.

(5) Other electronic devices with data interaction functions.

The device embodiments described above are merely illustrative, wherein the units described as separate components may or may not be physically separate, and the components displayed as units may or may not be physical units, ie may be located A place, or it can be distributed to multiple network units. Some or all of the modules may be selected according to actual needs to implement the solution of the embodiment. Those of ordinary skill in the art can understand and implement without deliberate labor.

Through the description of the above embodiments, those skilled in the art can clearly understand that the various embodiments can be implemented by means of software plus a general hardware platform, and of course, by hardware. Based on such understanding, the above technical solutions may be in software or in part contributing to related technologies. The form of the product is embodied. The computer software product can be stored in a computer readable storage medium, such as a ROM/RAM, a magnetic disk, an optical disk, etc., and includes a plurality of instructions for causing a computer device (which can be a personal computer, a server, or Network devices, etc.) perform the methods described in various embodiments or portions of the embodiments.

The above embodiments are only used to illustrate the technical solutions of the present invention, and are not limited thereto; the embodiments in the embodiments are not limited thereto, and the present invention may have various modifications and modifications to those skilled in the art. Variety.

Industrial applicability

The application provides the user with a comprehensive interconnection and intelligent response intelligent gateway device, which realizes unified uplink monitoring and downlink control of the remote control device to multiple intelligent devices.

Claims (15)

An intelligent gateway device, comprising: The intra-communication module is configured to connect to the smart device to obtain the monitoring information collected by the smart device, and as the uplink information, the uplink information is encapsulated according to the first communication protocol, and the uplink packet is obtained and transmitted to the next Central processor The central processing unit is configured to be connected to the inbound communication module, configured to parse the uplink packet based on the first communication protocol, to obtain uplink plaintext monitoring information, and transmit the information to the following external communication module; The external communication module is connected to the central processing unit and configured to connect to the remote control device to encapsulate the uplink plaintext monitoring information and transmit the same to the remote control device according to the second communication protocol; a power source connected to the internal communication module, the external communication module, and the central processing unit, configured to supply power; The external communication module is further configured to acquire a control instruction that is sent by the remote control device and used to control the smart device, and as the downlink information, perform the downlink information according to the second communication protocol. Encapsulating, obtaining a downlink message, and transmitting to the central processor; The central processing unit is further configured to: parse the downlink packet according to the second communication protocol, obtain a downlink plaintext control instruction, and transmit the downlink plaintext control instruction to the intra-communication module; The inbound communication module is further configured to encapsulate the downlink plaintext control instruction based on the first communication protocol and transmit the same to the smart device. The intelligent gateway device according to claim 1, wherein the intra-communication module comprises at least one sub-module: a Wi-Fi sub-module, a ZigBee sub-module, a Z-Wave sub-module, and a Bluetooth sub-module; The Wi-Fi sub-module is configured to connect to a high-power smart device; The ZigBee sub-module, the Z-Wave sub-module, and the Bluetooth sub-module are all configured to connect to a low-power smart device; The first communication protocol includes at least one of the following: a Wi-Fi communication protocol, a ZigBee communication protocol, a Z-Wave communication protocol, and a Bluetooth communication protocol. The intelligent gateway device of claim 1, wherein the outbound communication module comprises: an Ethernet submodule and/or a 3G/4G submodule. The intelligent gateway device according to claim 1, wherein the external communication module is further configured to connect to the cloud server to encapsulate the uplink plaintext monitoring information based on the second communication protocol, and transmit the information to the Cloud server. The intelligent gateway device according to any one of claims 1-4, further comprising: An alarm, respectively connected to the central processor and the power source, configured to perform an alarm according to an alarm instruction transmitted by the central processor; Correspondingly, the central processing unit is further configured to generate an alarm instruction and transmit to the alarm device when monitoring that the uplink plaintext monitoring information meets a preset abnormal condition. The smart gateway device of claim 5, further comprising: a tamper-proof switch connected to the central processor and the power source; Correspondingly, the central processor is further configured to generate an alarm command and transmit to the alarm when detecting a switch state switch of the tamper switch. The intelligent gateway device according to any one of claims 1-4, further comprising: An indicator light is respectively connected to the central processing unit and the power source, and configured to perform an abnormality indication according to an instruction instruction transmitted by the central processing unit; Correspondingly, the central processor is further configured to monitor the uplink plaintext monitoring information When the preset abnormal condition is met, an instruction command is generated and transmitted to the indicator. The intelligent gateway device according to any one of claims 1-4, further comprising: A lithium battery is separately connected to the internal communication module, the external communication module, and the central processing unit. The intelligent gateway device according to any one of claims 1-4, further comprising: Activating a button, respectively connected to the central processor and the power source, configured to transmit a push prompt signal to the central processor when in a pressed state; Correspondingly, the central processing unit is further configured to trigger the operation of the internal communication module and the external communication module after a set time when the pressing prompt signal is acquired. An intelligent monitoring system comprising: The smart gateway device according to any one of claims 1-9, configured to connect the smart device to perform protocol conversion on the monitoring information collected by the smart device, and transmit the same to the remote control device, which is also configured to be The control command generated by the remote control device for controlling the smart device is protocol-converted and transmitted to the smart device; a remote control device, connected to the smart gateway device, configured to acquire the protocol conversion processed monitoring information transmitted by the smart gateway device, and configured to generate a control instruction for controlling the smart device, and transmit To the smart gateway device. The system of claim 10 further comprising: a router configured to connect to the smart gateway device and connect the remote control device to the Internet; Correspondingly, the smart gateway device and the remote control device interact based on the router and the Internet. The system of claim 11 wherein said router is further configured to connect Can play the device; Correspondingly, the smart gateway device is further configured to transmit the monitoring information processed by the protocol conversion to the smart play device through the router. The system of claim 11 further comprising: The cloud server accessing the Internet is configured to store the protocol conversion processed monitoring information transmitted by the smart gateway device; Correspondingly, the smart gateway device is configured to transmit, by the router and the Internet, monitoring information processed by the protocol conversion to the cloud server. The system of claim 13 wherein: The remote control device is further configured to send a monitoring information acquisition request to the cloud server through the Internet; The cloud server is further configured to, when acquiring the monitoring information acquisition request, return the monitoring information processed by the protocol conversion to the remote control device. A system according to claim 13 or 14, further comprising: The alarm linkage center is connected to the cloud server, and configured to perform alarm linkage processing according to the protocol conversion processed monitoring information transmitted by the cloud server.

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