CN106982477A - A kind of airborne wireless access device and airborne wireless access system - Google Patents

Abstract

The present invention provides a kind of airborne wireless access device and airborne wireless access system, is related to communication technical field.The equipment includes power panel, I/O plates and AP mainboards, and the input of I/O plates is connected with the network access port of on-board server, and the first output end is connected with the input of power panel, and the second output end is connected with the input of AP mainboards；First output end of power panel is connected with the feeder ear of AP mainboards, and the second output end is connected with the discrete signal feeder ear of I/O plates；AP mainboards include WIFI module and wireless routing module, the feeder ear of WIFI module and wireless routing module is connected with the first output end of power panel, the WAN mouths of WIFI module and wireless routing module are connected with the second output end of I/O plates, and wireless routing module also includes the LAN mouths for being used to be connected with other airborne wireless access devices.The present invention can increase the access quantity of airborne wireless access device while on-board server port number is not increased, and reduce the total length and wiring complexity of connection cables between equipment.

Description

A kind of airborne wireless access device and airborne wireless access system

Technical field

The invention belongs to wireless communication technology field, more particularly to a kind of airborne wireless access device and airborne nothing Line access system.

Background technology

To meet the aerial entertainment requirements of passenger, each airline except providing movies on demand, listening attentively to aboard Music, read magazine, browse topical news and aerial shopping service, also attempt to install airborne WIFI without Portable radio terminal can be used to access the system for line LAN entertainment systems, passenger, enjoys airline and provides Diversified entertainment content and special service.

Shown in Figure 1, the basic commercialization by ground of main cabin wireless access system framework common at present wirelessly connects Enter phylogeny, mainly by cabin management terminal 1, on-board server 2, airborne wireless access device 3 And the grade of wireless terminal 4 composition of various main cabin passengers, wherein airborne wireless access device 3 is system group network Key equipment.

Airborne wireless access device 3 is the access point of the main cabin wireless networking on commercial aircraft, is supported A variety of WLAN standards such as IEEE 802.11a/b/g/n, the wireless terminal 4 of main cabin passenger can pass through machine Wireless local area network (WLAN) system on the access machine of radio reception device 3 is carried, the content of on-board server 1 is accessed, realized Browse, play and download document, audio and the video content of on-board server.Airborne wireless access is set Standby 3 are made up of power panel, I O board, mainboard, and aircraft provides abundant by it for the wireless terminal 4 in main cabin Various access content, it wirelessly connects the wireless terminal 4 of on-board server 2 and user Come, on-board server 2 is turned into the access originator of wireless subscriber terminal 4, realize the WLAN in main cabin Covering, the wireless networking experience of lifting passenger.

When wireless access system is applied to aircraft, it is necessary to consider the particularity of aircraft passenger compartment environment, such as Because considering the installing space and take-off weight problem of aircraft, the size and weight of on-board server 2 will be by Limit；Although cabin area is less, because be elongated shape, and it is intensive using device end, it may be necessary to More airborne wireless access devices 3, while between on-board server 2 and airborne wireless access device 3 Need longer connection cables.Therefore, occur when traditional wireless access system layout is applied on aircraft Following problem：In order to control the size of on-board server 2, its network access port limited amount, if not Think if additionally increasing other switch devices, it is difficult to connect too many airborne wireless access device 3；In addition, Connection cables are required between on-board server 2 and each airborne wireless access device 3, it is long and narrow because of cabin Shape, causes connection cables inevitable longer, can increase the complexity of aircraft weight and wiring.

The content of the invention

The purpose of the embodiment of the present invention is to provide a kind of airborne wireless access device and main cabin wireless access system System, it is intended to solve above-mentioned because the network access port in on-board server is limited, it is difficult in on-board server Between the upper too many airborne wireless access device of connection and on-board server and each airborne wireless access device Connection cables are needed, because of the elongated shape of cabin, causes connection cables inevitable longer, aircraft weight can be increased The problem of with the complexity of wiring.

The embodiment of the present invention is achieved in that a kind of airborne wireless access device, including power panel, I/O Plate and AP mainboards, the input of the I/O plates are connected with the network access port of external airborne server, First output end of the I/O plates is connected with the input of the power panel, the second output of the I/O plates End is connected with the input of the AP mainboards, the first output end of the power panel and the confession of the AP mainboards Electric end is connected, and the second output end of the power panel is connected with the discrete signal feeder ear of the I/O plates, its In：

The AP mainboards include WIFI module and wireless routing module, the feeder ear of the WIFI module and The feeder ear of the wireless routing module constitute the AP mainboards feeder ear and the power panel it is first defeated Go out end to be connected, the WAN mouths of the WIFI module and the WAN mouths composition of the wireless routing module are described The input of AP mainboards is connected with the second output end of the I/O plates, and the wireless routing module also includes using In the LAN mouths being connected with other airborne wireless access devices.

In the airborne wireless access device described in the embodiment of the present invention, the wireless routing module is independently arranged Outside the AP mainboards, described LAN mouthfuls includes gigabit network interface and 100-M network Ethernet.

In the airborne wireless access device described in the embodiment of the present invention, the WIFI module include 2.4G without Line unit, the WAN mouths of the 2.4G radio-cells are connected with the second output end of the I/O plates, and The 2.4G radio-cells be built-in with two be used for will external wireless terminal access WLAN in it is active Antenna.

In the airborne wireless access device described in the embodiment of the present invention, the WIFI module also includes 5.8G Radio-cell, the WAN mouths of the 5.8G radio-cells are connected with the second output end of the I/O plates, and And the 5.8G radio-cells are built-in with two and are used to external wireless terminal accessing having in WLAN Source antenna.

In the airborne wireless access device described in the embodiment of the present invention, the power panel also includes power supply instruction Lamp, 2.4G indicator lamps, 5.4G indicator lamps and link state indicator.

The another object of the embodiment of the present invention is to provide a kind of airborne wireless access system, including main cabin management Terminal, on-board server, wireless terminal and the airborne nothing formed of being connected by multiple airborne wireless access devices Line access device series connection group, the on-board server is respectively by cable and the cabin management terminal and described Airborne wireless access device series connection group connect, the airborne wireless access device series connection group also with the wireless end Wireless connection is held, wherein：

The airborne wireless access device include power panel, I/O plates and AP mainboards, the I/O plates it is defeated Enter end be connected with the network access port of the on-board server, the first output end of the I/O plates with it is described The input of power panel is connected, and the second output end of the I/O plates is connected with the input of the AP mainboards, First output end of the power panel is connected with the feeder ear of the AP mainboards, and the second of the power panel is defeated Go out end with the discrete signal feeder ear of the I/O plates to be connected；

The AP mainboards include WIFI module and wireless routing module, the feeder ear of the WIFI module and The feeder ear of the wireless routing module constitute the AP mainboards feeder ear and the power panel it is first defeated Go out end to be connected, the WAN mouths of the WIFI module and the WAN mouths composition of the wireless routing module are described The input of AP mainboards is connected with the second output end of the I/O plates, and the wireless routing module also includes using In the LAN mouths being connected with other airborne wireless access devices.

In the airborne wireless access system described in the embodiment of the present invention, the wireless routing module is independently arranged Outside the AP mainboards, described LAN mouthfuls includes gigabit network interface and 100-M network Ethernet.

In the airborne wireless access system described in the embodiment of the present invention, the WIFI module include 2.4G without Line unit, the WAN mouths of the 2.4G radio-cells are connected with the second output end of the I/O plates, and The 2.4G radio-cells be built-in with two be used for will external wireless terminal access WLAN in it is active Antenna.

In the airborne wireless access system described in the embodiment of the present invention, the WIFI module also includes 5.8G Radio-cell, the WAN mouths of the 5.8G radio-cells are connected with the second output end of the I/O plates, and And the 5.8G radio-cells are built-in with two and are used to external wireless terminal accessing having in WLAN Source antenna.

In the airborne wireless access system described in the embodiment of the present invention, the power panel also includes power supply instruction Lamp, 2.4G indicator lamps, 5.4G indicator lamps and link state indicator.

Implementing a kind of airborne wireless access device provided in an embodiment of the present invention and airborne wireless access system has Following beneficial effect：

The embodiment of the present invention in airborne wireless access device due to increasing the design of routing function so that described Airborne wireless access device has bypass function, can connect other airborne wireless access devices, so as to The network topology of airborne wireless access device in wireless access system on aircraft is changed to the side of connection in series-parallel combination Formula, while on-board server port number is not increased, adds connecting for airborne wireless access device Quantity, and the total length of connection cables and the complexity of wiring between equipment are reduced, alleviate airborne nothing The weight of line access system so that the structure of airborne wireless access system is simpler, flexible and reliable, just In installation, safeguard.

Brief description of the drawings

Fig. 1 is the schematic layout pattern for the airborne wireless access system network that prior art is provided；

Fig. 2 is the structural representation of airborne wireless access device provided in an embodiment of the present invention；

Fig. 3 is the schematic layout pattern of airborne wireless access system network provided in an embodiment of the present invention.

Embodiment

In order to make the purpose , technical scheme and advantage of the present invention be clearer, below in conjunction with accompanying drawing and reality Example is applied, the present invention will be described in further detail.It should be appreciated that specific embodiment described herein is only Only to explain the present invention, it is not intended to limit the present invention.

Fig. 2 shows the structured flowchart of airborne wireless access device provided in an embodiment of the present invention.For the ease of Illustrate to illustrate only part related to the present embodiment.

It is shown in Figure 2, a kind of airborne wireless access device provided in an embodiment of the present invention, including power panel 31st, I/O plates 32 and AP mainboards 33, first input end and the external airborne server of the I/O plates 32 Network access port be connected, the input of the first output end of the I/O plates 32 and the power panel 31 It is connected, the second output end of the I/O plates 32 is connected with the input of the AP mainboards 33, the electricity First output end of source plate 31 is connected with the feeder ear of the AP mainboards 33, and the second of the power panel 31 Output end is connected with the discrete signal feeder ear of the I/O plates 32, wherein：

The AP mainboards 33 include WIFI module 331 and wireless routing module 332, the WIFI module 331 feeder ear and the feeder ear of the wireless routing module 332 constitute the feeder ear of the AP mainboards 33 It is connected with the first output end of the power panel 31, the WAN mouths and the nothing of the WIFI module 331 The WAN mouths of line routing module 332 constitute the of the inputs of the AP mainboards 33 and the I/O plates 32 Two output ends are connected, and the wireless routing module 332 also includes being used to connect with other airborne wireless access devices The LAN mouths connect.

In embodiments of the present invention, the power panel 31 includes AC/DC change-over circuits 311 and DC/DC Change-over circuit 312, wherein, the input of the AC/DC change-over circuits 311 is the power panel 31 Input is connected with the first output end of the I/O plates 32, the output of the AC/DC change-over circuits 311 The first output end for the power panel 31 is held to be connected with the feeder ear of the mainboard, and the DC/DC The input of change-over circuit 312 is connected with the output end of the AC/DC change-over circuits 311, the DC/DC The output end of change-over circuit 312 is discrete for the second output end and the I/O plates 32 of the power panel 31 Signal-powered end connection.The AC/DC change-over circuits 311 are mainly used in from I/O plates 32 115V400HZ alternating voltage is converted to after 12V direct currents and powered to the AP mainboards 33, described DC/DC change-over circuits 312 are mainly used in the 12V direct currents for exporting the AC/DC change-over circuits 311 Be converted to after 28V direct currents to the discrete signal offer power supply in the I/O plates 32.

Further, the wireless routing module 332 is independently arranged at outside the AP mainboards 33, described LAN mouthfuls include gigabit network interface and 100-M network Ethernet.In embodiments of the present invention, other airborne wireless access devices The gigabit network interface or 100-M network Ethernet and the airborne wireless access device string in described LAN mouthfuls can be passed through Connection forms airborne wireless access device series connection group, and the airborne wireless access device series connection group in parallel can be accessed again The network access port of on-board server, so just can not increase on-board server inside aircraft passenger compartment While network access port, increase the accessible quantity of airborne wireless access device, and can also reduce The total length of connection cables and the complexity of wiring, mitigate the weight of airborne wireless access system between equipment. Further, since AP mainboards 33 be independently disposed to it is separate between routing module, accordingly even when wirelessly connecing The AP mainboards 33 for entering equipment 3 are damaged, and also can guarantee that routing function is normal, from without influenceing other wirelessly to connect Enter the use of equipment 3.

Further, the WIFI module 331 includes 2.4G radio-cells, the 2.4G radio-cells WAN mouths be connected with the second output end of the I/O plates 32, and built in the 2.4G radio-cells There are two active antennas for being used to access external wireless terminal in WLAN.Further, it is described WIFI module 331 also includes 5.8G radio-cells, WAN mouths and the I/O of the 5.8G radio-cells Second output end of plate 32 is connected, and the 5.8G radio-cells are built-in with two and are used for external wireless Active antenna in terminal access WLAN.

In embodiments of the present invention, the 2.4G radio-cells and 5.8G radio-cells in WIFI module 331 Between be also separate, so any one failure does not influence another wireless between the two The use of module.

Further, the power panel 31 also includes power supply indicator, 2.4G indicator lamps, 5.4G indicator lamps And link state indicator.In embodiments of the present invention, the power supply indicator is used to show AP mainboards 33 power supply state, the 2.4G indicator lamps and 5.4G indicator lamps are respectively used to indicate 2.4G radio-cells With the working condition of 5.8G radio-cells, link state indicator is used to indicate airborne wireless access device Road By the working condition of module.

Above as can be seen that a kind of airborne wireless access device provided in an embodiment of the present invention is due in AP master Routing function is added on plate 33 so that it has bypass function, can connect the access of other airborne wireless and set It is standby, therefore airborne wireless access device series connection that series connection is formed between each airborne wireless access device can be made Group, and the airborne wireless access device series connection group of these series connection can the airborne clothes in parallel that accessed in aircraft passenger compartment The network topology of airborne wireless access device in wireless access system on aircraft, just can so be changed to by business device The mode that connection in series-parallel is combined, therefore, it is possible to while on-board server port number is not increased, increase airborne Radio reception device connects quantity, and can reduce the total length of connection cables and wiring between equipment Complexity, mitigate airborne wireless access system weight so that the structure of airborne wireless access system is more Simply, flexibly it is and reliable, it is easily installed, safeguards.

Fig. 3 shows the schematic layout pattern of airborne wireless access system network provided in an embodiment of the present invention.For It is easy to illustrate to illustrate only part related to the present embodiment.

It is shown in Figure 3, a kind of airborne wireless access system provided in an embodiment of the present invention, including main cabin pipe Reason terminal 1, on-board server 2, wireless terminal 4 and being connected by multiple airborne wireless access devices 3 are formed Airborne wireless access device series connection group, the on-board server 2 passes through cable and the main cabin and manages respectively Terminal 1 and airborne wireless access device series connection group connection, the airborne wireless access device series connection group is also With the wireless connection of wireless terminal 4, wherein：

The airborne wireless access device 3 includes power panel 31, I/O plates 32 and AP mainboards 33, described The first input end of I/O plates 32 is connected with the network access port of the on-board server 2, the I/O plates 32 the first output end is connected with the input of the power panel 31, the second output end of the I/O plates 32 It is connected with the input of the AP mainboards 33, the first output end of the power panel 31 and the AP mainboards 33 feeder ear is connected, and the second output end of the power panel 31 and the discrete signal of the I/O plates 32 are supplied Electric end is connected；

The AP mainboards 33 include WIFI module 331 and wireless routing module 332, the WIFI module 331 feeder ear and the feeder ear of the wireless routing module 332 constitute the feeder ear of the AP mainboards 33 It is connected with the first output end of the power panel 31, the WAN mouths and the nothing of the WIFI module 331 The WAN mouths of line routing module 332 constitute the of the inputs of the AP mainboards 33 and the I/O plates 32 Two output ends are connected, and the wireless routing module 332 also includes being used for and other airborne wireless access devices 3 The LAN mouths of connection.

In embodiments of the present invention, the power panel 31 includes AC/DC change-over circuits 311 and DC/DC Change-over circuit 312, wherein, the input of the AC/DC change-over circuits 311 is the power panel 31 Input is connected with the first output end of the I/O plates 32, the output of the AC/DC change-over circuits 311 The first output end for the power panel 31 is held to be connected with the feeder ear of the mainboard, and the DC/DC The input of change-over circuit 312 is connected with the output end of the AC/DC change-over circuits 311, the DC/DC The output end of change-over circuit 312 is discrete for the second output end and the I/O plates 32 of the power panel 31 Signal-powered end connection.The AC/DC change-over circuits 311 are mainly used in from I/O plates 32 115V400HZ alternating voltage is converted to after 12V direct currents and powered to the AP mainboards 33, described DC/DC change-over circuits 312 are mainly used in the 12V direct currents for exporting the AC/DC change-over circuits 311 Be converted to after 28V direct currents to the discrete signal offer power supply in the I/O plates 32.

Further, the wireless routing module is independently arranged at outside the AP mainboards 33, the LAN Mouth includes gigabit network interface and 100-M network Ethernet.In embodiments of the present invention, other airborne wireless access devices 3 can To be connected by the gigabit network interface or 100-M network Ethernet in described LAN mouthfuls with the airborne wireless access device 3 Airborne wireless access device series connection group is formed, while on-board server 2 includes multiple nets in the embodiment of the present invention Network access interface, can the multiple airborne wireless access device series connection groups of access in parallel.So we just can be not While increasing the network access port of on-board server 2, increase can access for airborne wireless access device 3 Quantity, and the total length of connection cables and the complexity of wiring between equipment can also be reduced, mitigate airborne The weight of wireless access system.Further, since AP mainboards 33 are independently disposed between routing module mutually It is independent, accordingly even when the AP mainboards 33 of radio reception device 3 are damaged, it also can guarantee that routing function is normal, From without influenceing the use of other radio reception devices 3.

Further, the WIFI module 331 includes 2.4G radio-cells, the 2.4G radio-cells WAN mouths be connected with the second output end of the I/O plates 32, and built in the 2.4G radio-cells There are two active antennas for being used to access external wireless terminal 4 in WLAN.Further, it is described WIFI module 331 also includes 5.8G radio-cells, WAN mouths and the I/O of the 5.8G radio-cells Second output end of plate 32 is connected, and the 5.8G radio-cells are built-in with two and are used for external wireless Active antenna in the access WLAN of terminal 4.

In embodiments of the present invention, the 2.4G radio-cells and 5.8G radio-cells in WIFI module 331 Between be also separate, so any one failure does not influence another wireless between the two The use of module.

Further, the power panel 31 also includes power supply indicator, 2.4G indicator lamps, 5.4G indicator lamps And link state indicator.In embodiments of the present invention, the power supply indicator is used to show AP mainboards 33 power supply state, the 2.4G indicator lamps and 5.4G indicator lamps are respectively used to indicate 2.4G radio-cells With the working condition of 5.8G radio-cells, link state indicator is used to indicate airborne wireless access device 3 The working condition of middle routing module.

Above as can be seen that a kind of airborne wireless access system provided in an embodiment of the present invention is due in AP master Routing function is added on plate 33 so that it has bypass function, can connect the access of other airborne wireless and set It is standby, and by the network topology of airborne wireless access device 3 in traditional airborne wireless access system from parallel connection side Formula is changed to the mode of connection in series-parallel combination, so as to while on-board server port number is not increased, add Airborne wireless access device 3 connects quantity, and reduce between equipment the total length of connection cables and The complexity of wiring, alleviates the weight of airborne wireless access system so that the knot of airborne wireless access system Structure is simpler, flexible and reliable, is easily installed, safeguards.

The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all in this hair Any modifications, equivalent substitutions and improvements made within bright spirit and principle etc., should be included in the present invention Protection domain within.

Claims (10)

1. a kind of airborne wireless access device, it is characterised in that including power panel, I/O plates and AP mainboards, The input of the I/O plates is connected with the network access port of external airborne server, and the of the I/O plates One output end is connected with the input of the power panel, the second output end and the AP master of the I/O plates The input of plate is connected, and the first output end of the power panel is connected with the feeder ear of the AP mainboards, institute The second output end for stating power panel is connected with the discrete signal feeder ear of the I/O plates, wherein：

The AP mainboards include WIFI module and wireless routing module, the feeder ear of the WIFI module and The feeder ear of the wireless routing module constitute the AP mainboards feeder ear and the power panel it is first defeated Go out end to be connected, the WAN mouths of the WIFI module and the WAN mouths composition of the wireless routing module are described The input of AP mainboards is connected with the second output end of the I/O plates, and the wireless routing module also includes using In the LAN mouths being connected with other airborne wireless access devices.

2. airborne wireless access device as claimed in claim 1, it is characterised in that the wireless routing mould Block is independently arranged at outside the AP mainboards, and described LAN mouthfuls includes gigabit network interface and 100-M network Ethernet.

3. airborne wireless access device as claimed in claim 2, it is characterised in that the WIFI module bag Include 2.4G radio-cells, the second output end of the WAN mouths and the I/O plates of the 2.4G radio-cells It is connected, and the 2.4G radio-cells are built-in with two and are used to external wireless terminal accessing WLAN In active antenna.

4. airborne wireless access device as claimed in claim 3, it is characterised in that the WIFI module is also Including 5.8G radio-cells, the WAN mouths of the 5.8G radio-cells and the second output of the I/O plates End is connected, and the 5.8G radio-cells are built-in with two and are used to external wireless terminal accessing wireless local Active antenna in net.

5. airborne wireless access device as claimed in claim 4, it is characterised in that the power panel is also wrapped Include power supply indicator, 2.4G indicator lamps, 5.4G indicator lamps and link state indicator.

6. a kind of airborne wireless access system, it is characterised in that including cabin management terminal, on-board server, Wireless terminal and the airborne wireless access device series connection group formed of being connected by multiple airborne wireless access devices, The on-board server passes through cable and the cabin management terminal and the airborne wireless access device string respectively Joint group connect, the airborne wireless access device series connection group also with the wireless terminal wireless connection, wherein：

The airborne wireless access device include power panel, I/O plates and AP mainboards, the I/O plates it is defeated Enter end be connected with the network access port of the on-board server, the first output end of the I/O plates with it is described The input of power panel is connected, and the second output end of the I/O plates is connected with the input of the AP mainboards, First output end of the power panel is connected with the feeder ear of the AP mainboards, and the second of the power panel is defeated Go out end with the discrete signal feeder ear of the I/O plates to be connected；

The AP mainboards include WIFI module and wireless routing module, the feeder ear of the WIFI module and The feeder ear of the wireless routing module constitute the AP mainboards feeder ear and the power panel it is first defeated Go out end to be connected, the WAN mouths of the WIFI module and the WAN mouths composition of the wireless routing module are described The input of AP mainboards is connected with the second output end of the I/O plates, and the wireless routing module also includes using In the LAN mouths being connected with other airborne wireless access devices.

7. airborne wireless access system as claimed in claim 6, it is characterised in that the wireless routing mould Block is independently arranged at outside the AP mainboards, and described LAN mouthfuls includes gigabit network interface and 100-M network Ethernet.

8. airborne wireless access system as claimed in claim 7, it is characterised in that the WIFI module bag Include 2.4G radio-cells, the second output end of the WAN mouths and the I/O plates of the 2.4G radio-cells It is connected, and the 2.4G radio-cells are built-in with two and are used to external wireless terminal accessing WLAN In active antenna.

9. airborne wireless access system as claimed in claim 8, it is characterised in that the WIFI module is also Including 5.8G radio-cells, the WAN mouths of the 5.8G radio-cells and the second output of the I/O plates End is connected, and the 5.8G radio-cells are built-in with two and are used to external wireless terminal accessing wireless local Active antenna in net.

10. airborne wireless access system as claimed in claim 9, it is characterised in that the power panel is also wrapped Include power supply indicator, 2.4G indicator lamps, 5.4G indicator lamps and link state indicator.