CN203632803U - Data integration and transmission module used for monitoring system - Google Patents

Abstract

The utility model discloses a data integration and transmission module. The data integration and transmission module comprises a video acquisition/transmission module, a signal acquisition/interface circuit module, a CDMA voice communication module, a power supply module, a CDMA-MRU signal booster, and holder control equipment, the video acquisition/transmission module is respectively and electrically connected with the power supply module, the holder control equipment and the signal acquisition/interface circuit module, the signal acquisition/interface circuit module is respectively and electrically connected with the power supply module and the CDMA voice communication module, and the CDMA voice communication module is electrically connected with the power supply module. According to the data integration ad transmission module, the power supply conversion is performed via a conversion unit of the power supply module, the unified power supply requirement for a plurality of devices by one power supply is satisfied, and the pressure of the power supply is reduced; meanwhile, acquired video information and voice information are integrated via the video acquisition/transmission module and processed by the holder control equipment, the synchronization of information acquisition is guaranteed, and the phenomenon of information delay is prevented.

Description

A kind of data integration for supervisory control system and transport module

Technical field

The utility model relates to a kind of data integration and transport module; Relate in particular to a kind of data integration and transport module for offshore dumping ship supervisory control system.

Background technology

At present, the data information acquisition majority of boat-carrying supervisory control system is that all parts is powered separately, and the information by single parts to different time points, and by wireless network and main control system, information is transmitted separately, incline like this in hulk driving process easily because information changes at any time, or information collecting device is because of outside power-off, and cannot carry out accurately Real-time Collection and transmission; Owing to being the individual transmission that equipment carries out information, there will be the phenomenon of information delay simultaneously; Meanwhile, each establishing needs independent power supply, increases to a certain extent the pressure of power supply.

Summary of the invention

For making up the deficiencies in the prior art, the utility model provides data integration and the transport module in a kind of simple in structure, the supervisory control system that can carry out power reserves, the required information of collection monitoring system effectively in time.

For achieving the above object, the technical scheme that the utility model is taked is as follows:

Data integration in supervisory control system and a transport module, comprise video acquisition/transport module, signals collecting/interface module, CDMA speech communication module, power module, CDMA-MRU Signal Booster and cradle head control equipment; Described video acquisition/transport module is electrically connected with power module, cradle head control equipment, signals collecting/interface module respectively; Described signals collecting/interface module is power module, the electrical connection of CDMA speech communication module respectively; Described CDMA speech communication module is electrically connected with power module;

Described power module comprises power filter unit, Power Management Unit, power conversion unit and energy-storage units; The outside of described power filter unit is provided with power interface, for connect external power source; Described power filter unit is electrically connected with Power Management Unit; Described Power Management Unit is electrically connected with power conversion unit, energy-storage units respectively;

Described power conversion unit is for converting outside input power to coupling power supply for video acquisition/transport module, signals collecting/interface module, CDMA speech communication module;

Described energy-storage units is for storing unnecessary power supply energy, and in the time removing outside input power, the power supply of energy-storage units can be power module enough power supplys are provided; Described energy-storage units and outside input power can carry out free switching;

Described Power Management Unit manages for conversion, energy-storage units power storage and switching to power supply;

Described video acquisition/transport module comprises video acquisition module, video compression coding module, wireless transport module and supply module; Described supply module is electrically connected with video acquisition module, video compression coding module, wireless transport module respectively; Described video acquisition module is electrically connected with video compression coding module; Described video compression coding module is electrically connected with wireless transport module; Described wireless transport module is electrically connected with CDMA-MRU Signal Booster; Described video acquisition module is used for gathering multiple paths of video images information, and this image information is sent to video compression coding module; Described video compression coding module is for the processing of compressing, encode of graphical information that video acquisition module is collected, and the information of handling well is sent to wireless transport module; Described wireless transport module is given core circuit processing module by network by the video data transmitting of compression; Described network comprises EVDO, WCDMA or TD network;

Described signals collecting/interface module comprises ARM core control panel, for the collection of the various signals of supervisory control system and the transmission of information;

Described CDMA speech communication module be in emerging MC8331A module;

Described CDMA-MRU Signal Booster, for strengthening the transmittability of signal, improves EVDO networking speed, improves stability and the reliability of system core circuit module and Wireless Data Transmission;

Compared with prior art, the beneficial effects of the utility model are: the utility model has increased energy-storage units, power conversion unit and Power Management Unit in power module, carry out the deposit of power supply by energy-storage units, by Power Management Unit, accumulation power supply and outside input power are switched simultaneously; Meet the uninterrupted requirement that gathers and transmit of information; Carry out the conversion of AD/DC or the DC/DC of power supply by power supply conversion electric power, can meet the unified power demands of each information acquisition module simultaneously; The utility model also increases signals collecting/interface module in module, gather voice messaging by signals collecting/interface module, and the voice messaging collecting is integrated on video acquisition/transport module, the video information this information being gathered with it by video acquisition/transport module carry out integrated after together with transmit cradle head control equipment.

Brief description of the drawings

Fig. 1 is the utility model structural representation block diagram;

Fig. 2 is the structural representation block diagram of power module;

Fig. 3 is the structural representation block diagram of video acquisition/transport module;

Fig. 4 is the circuit theory diagrams of CDMA speech communication module.

Described embodiment

The embodiment providing below in conjunction with accompanying drawing is further described the utility model:

Data integration in supervisory control system and a transport module, comprise video frequency pick-up head, video acquisition/transport module, signals collecting/interface module, CDMA speech communication module, power module, CDMA-MRU Signal Booster and cradle head control equipment; Described video acquisition/transport module is provided with video connecting interface; Described video acquisition/transport module links together by this video connecting interface and video frequency pick-up head; Described video acquisition/transport module is provided with RS485 serial line interface; Described video acquisition/transport module is electrically connected with cradle head control equipment by this RS485 serial line interface, RS485 bus; On described video acquisition/transport module, be also provided with RS323 serial line interface; The input correspondence of described signals collecting/interface module is provided with RS323 serial line interface; On described video acquisition/transport module, RS323 serial line interface is connected with the RS323 serial line interface of signals collecting/interface module input by RS323 bus, thereby described video acquisition/transport module and described signals collecting/interface module are linked together; The output of described signals collecting/interface module is also provided with RS323 serial line interface; The input correspondence of described CDMA speech communication module is provided with RS323 serial line interface; The RS323 serial line interface of described signals collecting/interface module output is connected with the RS323 serial line interface of CDMA speech communication module input by RS323 bus, thereby described signals collecting/interface module and described CDMA speech communication module are linked together;

Described video acquisition/transport module is provided with power input interface; Described video acquisition/transport module is electrically connected with power module by this power input interface;

On described video acquisition/transport module, be also provided with Signal Booster interface; Described video acquisition/transport module is electrically connected with CDMA-MRU Signal Booster by this Signal Booster interface;

Described signals collecting/interface module is provided with power input interface; Described signals collecting/interface module is electrically connected with power module by this power input interface;

Described CDMA speech communication module is provided with power input interface; Described CDMA speech communication module is electrically connected with power module by this power input interface;

Described video frequency pick-up head is electrically connected with video acquisition/transport module; Described screen collection/transport module is electrically connected with power module, cradle head control equipment, signals collecting/interface module respectively; Described signals collecting/interface module is power module, the electrical connection of CDMA speech communication module respectively; Described CDMA speech communication module is electrically connected with power module;

Described power module comprises power filter unit, Power Management Unit, power conversion unit and energy-storage units; The outside of described power filter unit is provided with power interface, for connect external power source; Described power filter unit is electrically connected with Power Management Unit; Described Power Management Unit is electrically connected with power conversion unit, energy-storage units respectively;

Described power conversion unit is for converting outside input power to coupling power supply for video acquisition/transport module, signals collecting/interface module, CDMA speech communication module;

Described energy-storage units is for storing unnecessary power supply energy, and in the time removing outside input power, the power supply of energy-storage units can be power module enough power supplys are provided; Described energy-storage units and outside input power can carry out free switching;

Described Power Management Unit manages for conversion, energy-storage units power storage and switching to power supply;

Preferably, in the present embodiment, outside input power is+24VDC, by the effect of power module, by this+24VDC power supply converts video acquisition/transport module to required+12V, signals collecting/interface module be required ± 12V, signals collecting/interface module interface be required+described in 5V, CDMA speech communication module+output of 3.3V power supply, power to respectively video acquisition/transport module, signals collecting/interface module, CDMA speech communication module;

Described video acquisition/transport module comprises video acquisition module, video compression coding module, wireless transport module and supply module; Described supply module is electrically connected with video acquisition module, video compression coding module, wireless transport module respectively; Described video acquisition module is electrically connected with video compression coding module; Described video compression coding module is electrically connected with wireless transport module; Described wireless transport module is electrically connected with CDMA-MRU Signal Booster; Described video acquisition module is used for gathering multiple paths of video images information, and this image information is sent to video compression coding module; Described video compression coding module is for the processing of compressing, encode of graphical information that video acquisition module is collected, and the information of handling well is sent to wireless transport module; Described wireless transport module is given core circuit processing module by network by the video data transmitting of compression; Described network comprises EVDO, WCDMA or TD network;

Described CDMA speech communication module be in emerging MC8331A module; In described, emerging MC8331A module match circuit comprises an integration module ZIE_J, resistance R 1, R2, R3, R4, R5, R6, R8, R9, R10, R11, R12, capacitor C 16, C17, C18, C19, C20, C21, C22, C23, C24, C25, C26, C27, C28, C29, Wiring port J9, J10, J11, J12, J13, J14, UIM card, power management module D2; 11 pin of described integration module ZIE_J are electrically connected with 1 pin of Wiring port J9; 13 pin of described integration module ZIE_J are electrically connected with 4 pin of Wiring port J9; 15 pin of described integration module ZIE_J are RI signal end; 19 pin, 21 pin of described integration module ZIE_J are electrically connected with described power module; 23 pin, 24 pin of described integration module ZIE_J are electrically connected with 1 pin of UIM card, and ground connection; 37 pin of described integration module ZIE_J are electrically connected with a pin of capacitor C 20, a pin of capacitor C 19,1 pin of Wiring port J14 respectively; Another pin of described capacitor C 20 is electrically connected with 39 pin of integration module ZIE_J, a pin of capacitor C 21 respectively; Ground connection after another pin of described capacitor C 21 is in parallel with another pin of capacitor C 19; 39 pin of described integration module ZIE_J are electrically connected with 2 pin of Wiring port J14; The equal ground connection of 41～50 pin of described integration module ZIE_J; 2 pin of described integration module ZIE_J are electrically connected with a pin of resistance R 1; After one pin parallel connection of another pin of described resistance R 1 and capacitor C 16, be electrically connected with 5 pin of UIM card; 4 pin of described integration module ZIE_J are electrically connected with a pin of resistance R 3; After one pin parallel connection of another pin of described resistance R 31 and capacitor C 18, be electrically connected with 3 pin of UIM card; 6 pin of described integration module ZIE_J are electrically connected with a pin of resistance R 2; After one pin parallel connection of another pin of described resistance R 2 and capacitor C 17, be electrically connected with 4 pin of UIM card; 8 pin of described integration module ZIE_J are electrically connected with 6 pin of UIM card; 6 pin of described UIM card are electrically connected with a pin of a pin of capacitor C 29, resistance R 4; Another pin ground connection of described capacitor C 29; Another pin of described resistance R 4 is electrically connected with 3 pin of UIM card; Another pin of described capacitor C 16 is connected with a pin of resistance 6 with after another pin parallel connection of another pin of capacitor C 17, capacitor C 18 respectively; Another pin of described resistance R 6 is electrically connected with 16 pin of integration module ZIE_J; 14 pin of described integration module ZIE_J are electrically connected with a pin of resistance R 15; Another pin of described resistance R 15 is connected in parallel on a pin of resistance R 16; 26 pin of described integration module ZIE_J are electrically connected with 1 pin, 2 pin of Interface Terminal J10 respectively; 28 pin of described integration module ZIE_J are SMS_LED signal end; 30 pin of described integration module ZIE_J are SIG_LED signal end; 32 pin of described integration module ZIE_J are SMS_LED signal end; 32 pin of described integration module ZIE_J are electrically connected with a pin of capacitor C 22, a pin of capacitor C 23,1 pin of capacitor C 25,1 pin of Wiring port J12 respectively; Another pin of described capacitor C 23 is electrically connected with 34 pin of integration module ZIE_J, a pin of capacitor C 24 respectively; Ground connection after another pin of described capacitor C 24 is in parallel with another pin of capacitor C 22; Another pin of described resistance C25 is connected with a pin of resistance R 8; Another pin of described resistance R 82 pin of afterwards accessing power management module D2 in parallel with a pin of resistance R 7; Another pin of described resistance R 7 is electrically connected with 2 pin of Wiring port J11,10 pin of power management module D2 respectively; 1 pin of described Wiring port J11 is electrically connected with 6 pin of power management module D2, a pin of resistance R 9 respectively; Another pin of described resistance R 94 pin of afterwards accessing power management module D2 in parallel with a pin of resistance R 10; Another pin of described resistance R 10 is connected with a pin of capacitor C 26; Another pin of described capacitor C 26 is electrically connected with 34 pin of integration module ZIE_J, 2 pin of Wiring port J12 respectively; 3 pin of described power management module D2 are connected with 7 pin, and ground connection; 5 pin of described power management module D2 are electrically connected with a pin of capacitor C 27; Ground connection after another pin of described capacitor C 27 is in parallel with a pin of capacitor C 28; Another pin of described capacitor C 28 is electrically connected with 9 pin of power management module D2; The 9 pin access VS signals of described power management module D2; The 1 pin access CallIN signal of described power management module D2; The 8 pin skies of described power management module D2 connect; 38 pin of described integration module ZIE_J are electrically connected with 1 pin of Wiring port J13; 2 pin of described Wiring port J13 are electrically connected with 40 pin of integration module ZIE_J; 2 pin of described Wiring port J9 are electrically connected with a pin of resistance R 11; The TXD2ARM signal end of another pin access signals collecting/interface module of described resistance R 11; 5 of described Wiring port J9 is electrically connected with a pin of resistance R 12; The RXD2ARM signal end of another pin access signals collecting/interface module of described resistance R 12; The RXD-232 signal end of 3 pin access signals collecting/interface modules of described Wiring port J9; The TXD-232 signal end of 6 pin access signals collecting/interface modules of described Wiring port J9;

Described Wiring port J11 is for putting interface outward; Described Wiring port J12 is subject for ridicule receiver interface; Described Wiring port J13 is hands-free MIC interface; Described Wiring port J14 is subject for ridicule MIC interface;

Described signals collecting/interface module comprises ARM core control panel, for the collection of the various signals of supervisory control system and the transmission of information;

Described CDMA-MRU Signal Booster, for strengthening the transmittability of signal, improves EVDO networking speed, improves stability and the reliability of system core circuit module and Wireless Data Transmission;

The course of work:

Switch on power, general+24VDC flows to power module, and power module disturbs through the burr on its inner power filter unit filtering+24VDC power supply, reduces the ripple of power supply; Control respectively by Power Management Unit deposit, the power conversion unit that energy-storage units carries out power supply again and carry out the conversion of power supply, by this+24VDC power supply converts video acquisition/transport module to required+12V, signals collecting/interface module be required ± 12V, signals collecting/interface module interface be required+described in 5V, CDMA speech communication module+output of 3.3V power supply, and power to respectively video acquisition/transport module, signals collecting/interface module, CDMA speech communication module; Described CDMA speech communication module is sent voice signal, and by the interface circuit of RS232 bus transfer to signals collecting/interface module, carry out information gathering for signals collecting chip in signals collecting/interface module, and will collect information exchange and cross RS232 bus transfer to video acquisition/transport module; Then the vision signal that, video acquisition/transport module collects this signal and this time point is integrated into a kind of ripple signal frequently; And signal after this is integrated is transferred to cradle head control equipment by RS485 head station, is convenient to cradle head control equipment and carries out the processing of monitor data.

Claims (4)

1. the data integration in supervisory control system and a transport module, comprises video acquisition/transport module, signals collecting/interface module, CDMA speech communication module, power module, CDMA-MRU Signal Booster and cradle head control equipment; It is characterized in that: described video acquisition/transport module is electrically connected with power module, cradle head control equipment, signals collecting/interface module respectively; Described signals collecting/interface module is power module, the electrical connection of CDMA speech communication module respectively; Described CDMA speech communication module is electrically connected with power module.

2. data integration and the transport module in a kind of supervisory control system according to claim 1, is characterized in that: comprise power filter unit, Power Management Unit, power conversion unit and energy-storage units; The outside of described power filter unit is provided with power interface, for connect external power source; Described power filter unit is electrically connected with Power Management Unit; Described Power Management Unit is electrically connected with power conversion unit, energy-storage units respectively.

3. data integration and the transport module in a kind of supervisory control system according to claim 1, is characterized in that: described video acquisition/transport module comprises video acquisition module, video compression coding module, wireless transport module and supply module; Described supply module is electrically connected with video acquisition module, video compression coding module, wireless transport module respectively; Described video acquisition module is electrically connected with video compression coding module; Described video compression coding module is electrically connected with wireless transport module; Described wireless transport module is electrically connected with CDMA-MRU Signal Booster; Described video acquisition module is used for gathering multiple paths of video images information, and this image information is sent to video compression coding module; Described video compression coding module is for the processing of compressing, encode of graphical information that video acquisition module is collected, and the information of handling well is sent to wireless transport module; Described wireless transport module is given core circuit processing module by network by the video data transmitting of compression; Described network comprises EVDO, WCDMA or TD network.

4. data integration and the transport module in a kind of supervisory control system according to claim 1, is characterized in that: described CDMA speech communication module be in emerging MC8331A module.

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