CN110691017A

CN110691017A - Multifunctional fusion system and application thereof

Info

Publication number: CN110691017A
Application number: CN201911106287.5A
Authority: CN
Inventors: 符常勇
Original assignee: Shenzhen Alliance Polytron Technologies Inc
Current assignee: Shenzhen Alliance Polytron Technologies Inc
Priority date: 2018-11-14
Filing date: 2019-11-13
Publication date: 2020-01-14
Anticipated expiration: 2039-11-13
Also published as: CN109495354A; CN110691017B

Abstract

The invention discloses a multifunctional fusion system and application thereof.

Description

Multifunctional fusion system and application thereof

Technical Field

The invention belongs to the technical field of electricity, and mainly relates to a multifunctional fusion system and application thereof.

Background

The application takes the application number as: 201811350105.4, the Chinese patent application entitled "a multifunctional fusion system and its application" is a priority application.

The intelligent fusion host needs to meet various application requirements such as telephone, television, wireless network, intelligent control of guest rooms and the like based on special requirements of the current hotel industry, so that the intelligent fusion host with broadband access, IPTV function, wifi and intelligent control is provided, and the requirement of multi-service application of the guest rooms of the hotel is met by intelligent configuration.

In recent years, many large companies at home and abroad are engaged in the research of the smart home network, and have proposed their own solutions, and gradually form some relevant standards, such as UPnP, DLNA, 485, Wi-Fi, ZigBee, BlueTooth, and the like. These home network protocols have made beneficial attempts at addressing interoperation between heterogeneous network devices.

Currently, protocols suitable for smart home networks can be roughly divided into two categories: one is to transplant a high-rate networking protocol, mainly focusing on realizing the interoperation among network multimedia home equipment, a home computer and mobile equipment so as to support media applications including pictures, videos, audios and the like. The installation of such protocols generally requires an operating system and strong hardware support, but conventional home devices (such as washing machines, refrigerators, and the like) which are indispensable important components of digital homes are not provided with such conditions at present, and the operating system and the strong hardware support are not necessarily configured. Another class is migrating low-rate wireless networking protocols. Generally, the protocol has low requirements on hardware conditions, and can be simply installed on the traditional household equipment. But due to the limitation of the characteristics, the method is not suitable for the transmission of audio and video data, and the requirements of people on entertainment and multimedia cannot be realized. The 485 protocol and the ZigBee protocol are briefly introduced below.

The ZigBee technology is a short-distance wireless communication technology with a unified technical standard, the physical layer (PHY) and the media access control layer (MAC) protocol of the ZigBee technology are based on the IEEE802.15.4 protocol standard, and the network layer (NWK) and the application layer (APS) are established by the ZigBee alliance. Compared with other wireless networking technologies such as Wi-Fi and Bluetooth, the ZigBee networking technology has the networking characteristics of self-organization, multi-hop routing and dynamic topology, is simple in technology, easy to implement, strong in mobility, low in construction and maintenance cost, moderate in coverage range, high in network capacity, capable of supporting 6500 terminal devices at most, and very suitable for the control part of a digital home. Three topological structures of a star structure, a cluster tree structure and a mesh structure are defined in the ZigBee protocol, and a network comprises three types of nodes including a main node, a routing node and a terminal node. The main node is a main control node of the ZigBee network, coordinates and establishes a network, transmits network beacons, manages network nodes and stores network node information, and provides routing information among associated nodes; the routing node is responsible for searching and joining the network, transmitting data according to needs and requesting data from a network coordinator; the terminal node is the simplest node in the network and is responsible for local information collection and data processing.

In summary, any home gateway supporting one protocol in the prior art obviously cannot meet the requirement of fully monitoring each home device in the home network. For example, the 485 protocol supports various devices to be connected through networks such as a wired local area network, a wireless local area network and Bluetooth, but does not support ZigBee devices based on a non-IP protocol; similarly, the ZigBee protocol does not support the conventional home multimedia device using the 485 protocol, so that dynamic networking, resource content sharing, cooperative service control, and device remote monitoring between the 485 device and the ZigBee device cannot be implemented at present. In addition, most implemented home gateways still use a single networking protocol, except that the 3G + WLAN converged networking technology of the telecom operators is implemented and operated. The concept of a converged networking scheme such as the UPnP protocol and the ZigBee protocol is also proposed, but is not yet implemented. Therefore, a solution capable of solving the problem of interoperation between the 485 protocol device based on the Ip protocol and the ZigBee device not based on the Ip protocol is urgently needed.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a multifunctional fusion system and application thereof.

A multifunctional fusion system comprises an intelligent fusion terminal unit, a Wi-Fi streaming media host unit, an intelligent control unit, a dielectric ceramic storage unit and a photosensitive ceramic energy storage unit, namely a power supply unit, wherein the whole power supply unit is powered by 12V2ADC direct current, and power supplies of an IPTV module and an intelligent control module are converted into 3.3V power supplies; the Wi-Fi streaming media host unit pushes and plays, the Wi-Fi streaming media host unit equipment terminal is connected with a route through a wire or a Wi-Fi, the route is connected to an IPTV module through a tcp/ip protocol application link, built-in application apk software is called to realize the audio and video pushing and playing function of a network, a single chip processor and a zigbee wireless processor are built in the intelligent control unit and respectively receive and send and process 485 bus protocol signals and zigbee wireless signals, and the communication and real-time state synchronization are controlled by the internal serial port link and the routing module; the intelligent control module is connected with the intelligent fusion terminal unit, the Wi-Fi streaming media host unit, the dielectric ceramic storage unit and the photosensitive ceramic energy storage unit in a wired or wireless mode, the power supply unit provides power support for the fusion system, the dielectric ceramic storage unit is used for storing relevant information, and the dielectric ceramic storage unit is connected with the Wi-Fi streaming media host unit in a wired or wireless mode and transmits information.

The intelligent fusion terminal unit is provided with a host locally, and a box module, a routing module, a WiFi module and an intelligent home control module are arranged in the host; the box module is responsible for television playing; the WiFi module is responsible for logging in a network; the intelligent home control module is responsible for controlling intelligent devices in a home, and the intelligent home is provided with a first protocol communication module and a second communication module.

A first protocol control module for receiving a first message complying with a first protocol from a first device via the first protocol communication module and forwarding the first message to the main control module upon determining that a destination of the first message is directed to a second device; or sending a second message following the first protocol received from the main control module to the first device through the first protocol communication module;

a second protocol control module for receiving a third message complying with the second protocol from a second device via the second protocol communication module and forwarding the third message to the main control module when it is determined that a destination of the third message is directed to a first device; or sending a fourth message following the second protocol received from the main control module to the second device through a second protocol communication module; the master control module is used for converting the first message received from the first protocol control module from the first protocol into the second protocol to generate a fourth message and sending the fourth message to the second protocol control module, and is used for converting the third message received from the second protocol control module from the second protocol into the first protocol to generate a second message and sending the second message to the first protocol control module; each of the first message and the third message contains the type, the destination address and the matching information of the message, and the type, the destination address and the matching information of the message can be used for determining whether the destination of the first message points to a second home device or not and whether the destination of the third message points to a first home device or not; the first protocol is a 485 protocol and the second protocol is a ZigBee protocol.

A dielectric ceramic storage unit for storing information related to the one or more first devices and information related to the one or more second home devices.

The zigbee protocol is the same as human body infrared and door lock; the 485 protocol is used for panel lamps and curtain machines.

The convergence terminal unit is a wired route, a Wi-Fi hotspot, IPTV video live broadcast, an IP telephone, 485 protocol single-chip microcomputer control, Zigbee wireless central control, POE network power supply and a network streaming media player.

The Wi-Fi streaming media host unit is used for smoothly playing audio or video files on the equipment through a Wi-Fi wireless network, or appointing a server file address in a local area network to remotely play the audio or video files.

The operation flow of the streaming media host unit is that when the television is started, default video and audio streams are output through an HDMI port, the mobile terminal is connected to the same network of the intelligent fusion host, audio is pushed through Airplay and DLNA, and music is played through an AV interface, so that shunting and partition playing of the television and background music is realized without mutual interference; when the television is started, a guest room cinema mode is selected, the pushed video is output to a television screen through HDMI, the audio stream is output through AV to realize that the television screen plays the video, and the audio is output by an external loudspeaker, thereby providing a better cinema effect; when the television is turned off, the audio broadcasting function of the AV port is realized through the music pushing function of the same local area network.

The intelligent control unit is processed by two parts, wherein the first part is used for controlling an iptv television signal by infrared emission, and the second part is used for controlling a 485 serial port electrical frequency signal and a zigbee wireless signal by infrared emission; when the infrared remote controller is pressed by a key, the infrared receiver receives an infrared signal from the remote control transmitter, converts the received infrared remote control signal into an electric signal, and after amplification, mediation and filtering, the original code is simultaneously input to the pins of the external interrupt of the IPTV main control module and the intelligent control module through the infrared receiver, then the received original code signal is judged and identified by the infrared receiver, and corresponding judgment is made, if the original code signal is the television channel switching or volume increase and decrease of an IPTV part, the IPTV module receives decoding processing; if the signal is the intelligent household control part signal, the intelligent control module receives and processes the signal, after the infrared signal is decoded, different keys of the remote controller are pressed, and the relay of the corresponding terminal is switched on or off through the RCU guest control host and the zigbee protocol module which are connected through the serial port.

The dielectric ceramic storage unit is used for storing digital information.

Advantageous effects

Excellent performance: the mainstream design scheme supports 80211b/g/n, 2T2R, an internal antenna, the maximum downlink rate of 300Mbps and strong WiF performance (solving the problem of indoor WF | coverage).

Uninterrupted network hotspots: under the condition that the guest room is not plugged, the WiFi hotspot of the intelligent fusion host and the intelligent control module can still be kept in normal states through the POE network power supply port, and the intelligent application scene is ensured to be controlled uninterruptedly.

Safe WiFi: the method supports user identity recognition service and Porta authentication; the network security function meets the security audit requirement of the national ministry of public security.

The television and the internet are watched without errors: the method supports simultaneous access to the Internet and dialing access to IPTV services of an IPTV private network, and the Internet and the IPTV services are relatively independent and do not occupy bandwidth mutually.

The construction and wiring are simple: compared with a common set top box, the access hotel does not need to carry out additional construction wiring.

One machine is in hand, and all: the user only needs one infrared remote controller, and can directly control the existing equipment, a television, light, a curtain, background music and other air-conditioning equipment, and the operation can be freely controlled by one key, so that a brand-new automatic intelligent experience is provided.

Combining multiple intelligent scenes: one key is opened. And a function scene key is freely set, and linkage control among multiple devices is realized.

In the prior art, metal dielectric storage units, dielectric ceramic storage units and photosensitive ceramic energy storage units are often used, which have excellent stability and service life, but have limited use in the field due to problems in matching with other modules and overall voltage of power supply.

According to the application, the power supply of the IPTV module and the intelligent control module is converted into 3.3V power supply, and through a large amount of researches of the applicant, the power supply of the module is converted into 3.3V power supply by converting the power supply of the power supply unit into 12V2ADC direct current power supply, so that the power supply can be well fused with the dielectric ceramic storage unit and the photosensitive ceramic energy storage unit, and the problem that the intelligent control module, the IPTV module, the node grass storage unit and the photosensitive ceramic energy storage unit cannot be matched for use in the prior art is solved, and therefore the power supply has prominent substantive progress; the utility model provides a creative dielectric ceramic memory cell and photosensitive ceramic energy storage unit and Wi-Fi streaming media host computer unit use with other constitutional units such as singlechip treater cooperations, connect through wired or wireless mode to transmit information, better realization the function integration of system.

Drawings

FIG. 1 is a circuit diagram of a single chip microcomputer control;

fig. 2 is a wireless Zigbee control circuit diagram;

FIG. 3 is a 485 protocol control circuit diagram;

FIG. 4 is a power control module;

FIG. 5 is a schematic diagram of the fusion system of the present application; the power supply part is characterized in that the whole machine is powered by 12V2ADC direct current, wherein the power supply of the IPTV module and the intelligent control module is converted into 3.3V power supply; an application module connecting section. The method comprises the following steps of inter-application connection, Wi-Fi streaming media push playing, connecting a device terminal with a route (wired or Wi-Fi) to an iptv application module through a tcp/ip protocol application link, and calling built-in application apk software to realize the audio and video push playing function of the network. The intelligent control module is internally provided with a single chip processor and a zigbee wireless processor which are respectively connected with a 485 bus protocol signal and a zigbee wireless signal, and the intelligent control module controls communication and real-time state synchronization with the routing module through an internal serial port link.

Fig. 6 is a schematic diagram of an audio and video shunting implementation principle;

FIG. 7 is a flow chart of the functional implementation:

FIG. 8 is a schematic diagram of an all-in-one wireless control.

Detailed Description

Example 1

A multifunctional fusion system comprises an intelligent fusion terminal unit, a Wi-Fi streaming media host unit, an intelligent control unit, a dielectric ceramic storage unit and a photosensitive ceramic energy storage unit, namely a power supply unit, wherein the whole power supply unit is powered by 12V2A DC, and the power supplies of an IPTV module and an intelligent control module are converted into 3.3V power supplies; the Wi-Fi streaming media host unit pushes and plays, the Wi-Fi streaming media host unit equipment terminal is connected with a route through a wire or a Wi-Fi, the route is connected to an IPTV module through a tcp/ip protocol application link, built-in application apk software is called to realize the audio and video pushing and playing function of a network, a single chip processor and a zigbee wireless processor are built in the intelligent control unit and respectively receive and send and process 485 bus protocol signals and zigbee wireless signals, and the communication and real-time state synchronization are controlled by the internal serial port link and the routing module; the intelligent control module is connected with the intelligent fusion terminal unit, the Wi-Fi streaming media host unit, the dielectric ceramic storage unit and the photosensitive ceramic energy storage unit in a wired or wireless mode, the power supply unit provides power support for the fusion system, the dielectric ceramic storage unit is used for storing relevant information, and the dielectric ceramic storage unit is connected with the Wi-Fi streaming media host unit in a wired or wireless mode and transmits information.

Example 2

Finally, it should be noted that: it should be understood that the above examples are only for clearly illustrating the present application and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications of this type are intended to be covered by the present invention.

Claims

1. A multifunctional fusion system, characterized by: the fusion system comprises an intelligent fusion terminal unit, a Wi-Fi streaming media host unit, an intelligent control unit, a dielectric ceramic storage unit and a photosensitive ceramic energy storage unit, namely a power supply unit, wherein the whole power supply unit is powered by 12V2ADC direct current, and the power supplies of an IPTV module and an intelligent control module are converted into 3.3V power supplies; the Wi-Fi streaming media host unit pushes and plays, the Wi-Fi streaming media host unit equipment terminal is connected with a route through a wire or a Wi-Fi, the route is connected to an IPTV module through a tcp/ip protocol application link, built-in application apk software is called to realize the audio and video pushing and playing function of a network, a single chip processor and a zigbee wireless processor are built in the intelligent control unit and respectively receive and send and process 485 bus protocol signals and zigbee wireless signals, and the communication and real-time state synchronization are controlled by the internal serial port link and the routing module; the intelligent control module is connected with the intelligent fusion terminal unit, the Wi-Fi streaming media host unit, the dielectric ceramic storage unit and the photosensitive ceramic energy storage unit in a wired or wireless mode, the power supply unit provides power support for the fusion system, the dielectric ceramic storage unit is used for storing relevant information, and the dielectric ceramic storage unit is connected with the Wi-Fi streaming media host unit in a wired or wireless mode and transmits information.

2. The fusion system of claim 1, wherein: the intelligent fusion terminal unit is provided with a host locally, and a box module, a routing module, a WiFi module and an intelligent home control module are arranged in the host; the box module is responsible for television playing; the WiFi module is responsible for logging in a network; the intelligent home control module is responsible for controlling intelligent devices in a home, and the intelligent home is provided with a first protocol communication module and a second communication module.

3. The fusion system of claim 1, wherein: a first protocol control module for receiving a first message complying with a first protocol from a first device via the first protocol communication module and forwarding the first message to the main control module upon determining that a destination of the first message is directed to a second device; or sending a second message following the first protocol received from the main control module to the first device through the first protocol communication module;

4. The fusion system of claim 1, wherein: a dielectric ceramic storage unit for storing information related to the one or more first devices and information related to the one or more second home devices.

5. The fusion system of claim 3, wherein: the zigbee protocol is the same as human body infrared and door lock; the 485 protocol is used for panel lamps and curtain machines.

6. The fusion system of claim 1, wherein: the convergence terminal unit is a wired route, a Wi-Fi hotspot, IPTV video live broadcast, an IP telephone, 485 protocol single-chip microcomputer control, Zigbee wireless central control, POE network power supply and a network streaming media player.

7. The fusion system of claim 1, wherein: the Wi-Fi streaming media host unit is used for smoothly playing audio or video files on the equipment through a Wi-Fi wireless network, or appointing a server file address in a local area network to remotely play the audio or video files.

8. Use of the fusion system according to claim 1, characterized in that: the operation flow of the streaming media host unit is that when the television is started, default video and audio streams are output through an HDMI port, the mobile terminal is connected to the same network of the intelligent fusion host, audio is pushed through Airplay and DLNA, and music is played through an AV interface, so that shunting and partition playing of the television and background music is realized without mutual interference; when the television is started, a guest room cinema mode is selected, the pushed video is output to a television screen through HDMI, the audio stream is output through AV to realize that the television screen plays the video, and the audio is output by an external loudspeaker, thereby providing a better cinema effect; when the television is turned off, the audio broadcasting function of the AV port is realized through the music pushing function of the same local area network.

9. Use of the fusion system according to claim 8, characterized in that: the intelligent control unit is processed by two parts, wherein the first part is used for controlling an iptv television signal by infrared emission, and the second part is used for controlling a 485 serial port electrical frequency signal and a zigbee wireless signal by infrared emission; when the infrared remote controller is pressed by a key, the infrared receiver receives an infrared signal from the remote control transmitter, converts the received infrared remote control signal into an electric signal, and after amplification, mediation and filtering, the original code is simultaneously input to the pins of the external interrupt of the IPTV main control module and the intelligent control module through the infrared receiver, then the received original code signal is judged and identified by the infrared receiver, and corresponding judgment is made, if the original code signal is the television channel switching or volume increase and decrease of an IPTV part, the IPTV module receives decoding processing; if the signal is the intelligent household control part signal, the intelligent control module receives and processes the signal, after the infrared signal is decoded, different keys of the remote controller are pressed, and the relay of the corresponding terminal is switched on or off through the RCU guest control host and the zigbee protocol module which are connected through the serial port.