CN202472892U - Fireman distress system in support of multimode self-organizing network - Google Patents
Fireman distress system in support of multimode self-organizing network Download PDFInfo
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- CN202472892U CN202472892U CN201220047294XU CN201220047294U CN202472892U CN 202472892 U CN202472892 U CN 202472892U CN 201220047294X U CN201220047294X U CN 201220047294XU CN 201220047294 U CN201220047294 U CN 201220047294U CN 202472892 U CN202472892 U CN 202472892U
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Abstract
The utility model relates to the field of firefighting individual protective equipment, specifically to a fireman distress system in support of multimode self-organizing network. The fireman distress system comprises a displayer, a main controller, a router, a slave controller and an air-respiration sensor. Compared with the prior art, the communication network coverage scope of a fireman SOS device is expaned, a fireman is enabled to keep in touch with a control center by utilizing local area network communications, and the work of the fireman can be greatly improved.
Description
Technical field
The utility model relates to fire-fighting individual protective equipment field, specifically a kind of fireman's distress system of supporting the multinode MANET.
Background technology
Along with NFA army promotes the increasing demand of digitizing and IT application facilities; Fireman's rescue beacon ensures that as the personal security of fireman when carrying out fire-fighting operation it must satisfy the special communication need of all types of industries plant area, skyscraper, subway.Simply point-to-points, point-to-point communication pattern is can't satisfy the communication need of fireman's rescue beacon in baroque building; Owing to the restriction of fireman's rescue beacon radio-frequency emission power, can't use powerful radiofrequency emitting module, so just limit the point-to-point communication distance of fireman's rescue beacon.
Summary of the invention
The utility model is the deficiency that overcomes prior art, has proposed a kind of fireman's distress system of supporting the multinode MANET.
For realizing above-mentioned purpose; Design a kind of fireman's distress system of supporting the multinode MANET, comprise that display, main control computer, router, slave controller, sky exhale sensor, it is characterized in that: main control computer is provided with 4 ports; Router is provided with 3 ports, and slave controller is provided with 4 ports; Display is through 1 port of the two-way connection main control computer of WIFI; The the 2nd, the 3rd port of main control computer passes through 2 ports of WIFI and the two-way connection router of RF respectively; The 3rd port of router is through 1 port of the two-way connection slave controller of RF, and the 2nd, the 3rd port of slave controller exhaled sensor and spare interface through the two-way connection sky of WIFI respectively; The 4th port of main control computer passes through the 4th port of WIFI and the two-way connection slave controller of RF respectively.
Described display comprises 1WIFI module, the 1st key-press module, 1MCU, 1LCD; 1MCU is provided with 3 ports; 1 port is through the two-way connection of USART 1WIFI module; The output port of the 1st key-press module connects the input port of 1MCU through I/O, and the output port of 1MCU connects the input port of 1LCD through SPI.
Described main control computer comprises 2WIFI module, 2MCU, 1RF, and 2MCU is provided with 2 ports, respectively through the two-way connection of USART 2WIFI module and 1RF.
Described router comprises 3WIFI module, 3MCU, 2RF, and 3MCU is provided with 2 ports, respectively through the two-way connection of USART 3WIFI module and 2RF.
Described slave controller comprises 4WIFI module, 4MCU, 3RF, the 2nd key-press module, motion sensor, boost module, LED, hummer; 4MCU is provided with 6 ports; Wherein 2 ports are respectively through the two-way connection of USART 4WIFI module and 3RF; The output port of the 2nd key-press module connects 1 input port of 4MCU through I/O; 1 output port of 4MCU is through the input port of PWM connection boost module, and the output port of boost module connects the input port of hummer; The output port of motion sensor connects in addition 1 input port of 4MCU through I/O, and 1 output port in addition of 4MCU connects the input port of LED through PWM.
Described sky exhales sensor to comprise 5WIFI module, 5MCU, the 3rd key-press module, baroceptor, 2LCD; 5MCU is provided with 4 ports; The output port of the 3rd key-press module connects 1 input port of 5MCU through I/O, and 1 output port of 5MCU connects the input port of 2LCD through SPI; The output port of baroceptor connects 1 input port in addition of 5MCU through ADC; The 4th port of 5MCU is through the two-way connection of USART 5WIFI module.
Described router and slave controller can be provided with several.
The utility model is compared with prior art, enlarges the coverage of fireman's rescue beacon communication network, realizes utilizing the LAN communication to let fireman and control center keep in touch, and fireman's work can be improved greatly.
Description of drawings
Fig. 1 is the utility model system chart.
Fig. 2 is the structural representation of display.
Fig. 3 is the structural representation of main control computer.
Fig. 4 is the structural representation of router.
Fig. 5 is the structural representation of slave controller.
Fig. 6 is empty structural representation of exhaling sensor.
Fig. 7 is the structured flowchart of network node.
Embodiment
According to accompanying drawing the utility model is done further explanation below.
As shown in Figure 1, main control computer is provided with 4 ports, and router is provided with 3 ports, and slave controller is provided with 4 ports; Display is through 1 port of the two-way connection main control computer of WIFI; The the 2nd, the 3rd port of main control computer passes through 2 ports of WIFI and the two-way connection router of RF respectively; The 3rd port of router is through 1 port of the two-way connection slave controller of RF, and the 2nd, the 3rd port of slave controller exhaled sensor and spare interface through the two-way connection sky of WIFI respectively; The 4th port of main control computer passes through the 4th port of WIFI and the two-way connection slave controller of RF respectively.
As shown in Figure 2; The input interface of the power module of display connects lithium battery; The power supply of output interface connected system, 1MCU are provided with 3 ports, and 1 port is through the two-way connection of USART 1WIFI module; The output port of the 1st key-press module connects the input port of 1MCU through I/O, and the output port of 1MCU connects the input port of 1LCD through SPI.
As shown in Figure 3, the input interface of the power module of main control computer connects lithium battery, and the power supply of output interface connected system, 2MCU are provided with 2 ports, respectively through the two-way connection of USART 2WIFI module and 1RF.
As shown in Figure 4, the input interface of router power module connects Ni-MH battery, and the power supply of output interface connected system, 3MCU are provided with 2 ports, respectively through the two-way connection of USART 3WIFI module and 2RF.
As shown in Figure 5; The input interface of the power module of slave controller connects Ni-MH battery, and the power supply of output interface connected system, 4MCU are provided with 6 ports; Wherein 2 ports are respectively through the two-way connection of USART 4WIFI module and 3RF; The output port of the 2nd key-press module connects 1 input port of 4MCU through I/O, and 1 output port of 4MCU connects the input port of boost module through PWM, and the output port of boost module connects the input port of hummer; The output port of motion sensor connects in addition 1 input port of 4MCU through I/O, and 1 output port in addition of 4MCU connects the input port of LED through PWM.
As shown in Figure 6; Sky exhales the input interface of the power module of sensor to connect Ni-MH battery; The power supply of output interface connected system; 5MCU is provided with 4 ports, and the output port of the 3rd key-press module connects 1 input port of 5MCU through I/O, and 1 output port of 5MCU connects the input port of 2LCD through SPI; The output port of baroceptor connects 1 input port in addition of 5MCU through ADC; The 4th port of 5MCU is through the two-way connection of USART 5WIFI module.
As shown in Figure 7, router and slave controller can be provided with several, and each slave controller can be used as an independently node, can accept the data that other nodes send in the network and be forwarded to other nodes.
Slave controller is as being worn on fireman's data processing terminal on one's body, and sky exhales sensor as being installed in the gaseous tension detecting sensor on fireman's air respiratorresuscitator, and sky exhales sensor through the WIFI network gas pressure data to be transferred to slave controller.Data after slave controller will be handled are sent to main control computer through the RF network, and other slave controllers, router are just as network node at this moment, and the data that can transmit its slave controller transmission are to main control computer.Main control computer receives the laggard line data processing of data that slave controller sends, and through the WIFI network data is sent to display.Display provides the data presentation of receiving the operation of user's man-machine interface on LCD.
Enlarge the coverage of fireman's rescue beacon communication network like this, realize utilizing the LAN communication to let fireman and control center keep in touch, fireman's work can be improved greatly.
Claims (7)
1. fireman's distress system of supporting the multinode MANET comprises that display, main control computer, router, slave controller, sky exhale sensor, and it is characterized in that: main control computer is provided with 4 ports, and router is provided with 3 ports, and slave controller is provided with 4 ports; Display is through 1 port of the two-way connection main control computer of WIFI; The the 2nd, the 3rd port of main control computer passes through 2 ports of WIFI and the two-way connection router of RF respectively; The 3rd port of router is through 1 port of the two-way connection slave controller of RF, and the 2nd, the 3rd port of slave controller exhaled sensor and spare interface through the two-way connection sky of WIFI respectively; The 4th port of main control computer passes through the 4th port of WIFI and the two-way connection slave controller of RF respectively.
2. a kind of fireman's distress system of supporting the multinode MANET according to claim 1; It is characterized in that: described display comprises 1WIFI module, the 1st key-press module, 1MCU, 1LCD; 1MCU is provided with 3 ports; 1 port is through the two-way connection of USART 1WIFI module, and the output port of the 1st key-press module connects the input port of 1MCU through I/O, and the output port of 1MCU connects the input port of 1LCD through SPI.
3. a kind of fireman's distress system of supporting the multinode MANET according to claim 1; It is characterized in that: described main control computer comprises 2WIFI module, 2MCU, 1RF; 2MCU is provided with 2 ports, respectively through the two-way connection of USART 2WIFI module and 1RF.
4. a kind of fireman's distress system of supporting the multinode MANET according to claim 1; It is characterized in that: described router comprises 3WIFI module, 3MCU, 2RF; 3MCU is provided with 2 ports, respectively through the two-way connection of USART 3WIFI module and 2RF.
5. a kind of fireman's distress system of supporting the multinode MANET according to claim 1; It is characterized in that: described slave controller comprises 4WIFI module, 4MCU, 3RF, the 2nd key-press module, motion sensor, boost module, LED, hummer; 4MCU is provided with 6 ports; Wherein 2 ports are respectively through the two-way connection of USART 4WIFI module and 3RF; The output port of the 2nd key-press module connects 1 input port of 4MCU through I/O, and 1 output port of 4MCU connects the input port of boost module through PWM, and the output port of boost module connects the input port of hummer; The output port of motion sensor connects in addition 1 input port of 4MCU through I/O, and 1 output port in addition of 4MCU connects the input port of LED through PWM.
6. a kind of fireman's distress system of supporting the multinode MANET according to claim 1; It is characterized in that: described sky exhales sensor to comprise 5WIFI module, 5MCU, the 3rd key-press module, baroceptor, 2LCD; 5MCU is provided with 4 ports; The output port of the 3rd key-press module connects 1 input port of 5MCU through I/O, and 1 output port of 5MCU connects the input port of 2LCD through SPI; The output port of baroceptor connects 1 input port in addition of 5MCU through ADC; The 4th port of 5MCU is through the two-way connection of USART 5WIFI module.
7. a kind of fireman's distress system of supporting the multinode MANET according to claim 1, it is characterized in that: described router and slave controller can be provided with several.
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US11025725B2 (en) | 2015-09-01 | 2021-06-01 | 3M Innovative Properties Company | Providing safety related contextual information in a personal protective equipment system |
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2012
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US11025725B2 (en) | 2015-09-01 | 2021-06-01 | 3M Innovative Properties Company | Providing safety related contextual information in a personal protective equipment system |
US11330062B2 (en) | 2015-09-01 | 2022-05-10 | 3M Innovative Properties Company | Providing safety related contextual information in a personal protective equipment system |
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Granted publication date: 20121003 |
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