CN218514516U - Multi-party linkage emergency command processing equipment - Google Patents

Abstract

The utility model relates to an emergent command processing equipment of many ways linkage. The equipment comprises a command center terminal, an emergency individual soldier terminal, a collaborative rescue terminal and a linkage command terminal; the command center terminal comprises control center units and display units, wherein a plurality of control center units process services simultaneously, and each line data sink node is accessed nearby; the emergency individual soldier terminal is used for emergency communication and monitoring an interruption area, and real-time audio and video geographic position data information of an emergency scene is dispatched back to the emergency command platform; the cooperative rescue terminal is used for emergency cooperative rescue under a series of emergencies such as bus connection, police condition, flood, fire and casualties; the linkage command terminal is used for establishing data transmission, voice call and video access when handling a major emergency. The utility model has the advantages of "many live" operation, nimble start, fuse communication, on-the-spot audio frequency and video geographical position information synchronization, rescue in coordination, linkage commander etc.

Description

Multi-party linkage emergency command processing equipment

Technical Field

The utility model relates to a rail transit emergency command technical field, concretely relates to emergent command treatment facility of many ways linkage.

Background

Urban rail transit net involves multiple technical field, comprises multiple equipment hardware and software facilities, and its security and reliability of operation net are a complicated system engineering, and under the condition of high density, large volume traffic, urban rail transit takes place the probability of incident and the frequency is higher and higher, and the influence is also bigger and bigger, how to guarantee to deal with the incident fast effectively, has become urban rail transit safe operation's the leading problem, needs the subway net emergency command center that the net was put in order to take place in a lump. With the development of modern science and technology and cloud computing technology, the updating of electronic products is changing day by day, and the demand and construction of a wire network emergency command center are changing day by day. In order to adapt to the development of the current social requirements, both the early-stage operation-opened city and the city in which the operation network is in progress need to be modified, upgraded or built for the urban rail transit network emergency command center.

With the continuous promotion of rail transit networking construction work, the risk potential presents the development trend of diversification, complication and growth, and the development trend is mainly reflected in the aspects of large equipment quantity, multiple system types, wide network layout, high passenger demand and the like. The emergency gradually becomes a daily difficult problem in safety management work, and causes great interference to the stable operation of rail transit. The emergency has the characteristics of random occurrence time and space, high occurrence probability frequency, deep influence range, complex and changeable accident causes and the like, forms a huge test on the existing emergency linkage disposal mechanism, and becomes a development hotspot which is widely concerned in recent years.

Further, with the development of urban rail transit construction, subway line networks are increasingly large in size, most of urban rail transit is located in underground space and is a relatively closed environment, the urban rail transit has the characteristics of high passenger flow concentration and complex passenger flow composition, the stop operation of stations or lines during emergencies is easy to cause the detention of a large number of passengers, and serious property loss and even casualty accidents can be caused in severe cases. The single line network emergency command center also has the risk of disaster occurrence and failure, and meanwhile, the disaster occurrence time, place and position of the leading layer are also important factors influencing the speed of emergency rescue and relief response. Therefore, how to use the technical means to improve the safety and the stability of the emergency command center; how to quickly organize and coordinate units such as public transport, public security, fire fighting and the like for collaborative rescue; how to dispatch the communication and monitoring the emergency of the interrupt area and the on-site real-time audio and video geographic position data information back to the emergency command center; how to quickly link emergency command centers at all levels in province, city and district to realize information communication and instruction issuing is an urgent problem to be solved.

SUMMERY OF THE UTILITY MODEL

In order to solve the shortcoming and the weak point that above-mentioned rail transit emergency command exists, the utility model provides an emergency command processing equipment of many side linkage has "many live" operation, nimble start-up, fuses communication, on-the-spot audio frequency and video geographical position information synchronization, rescue in coordination, advantages such as linkage command in real time.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a multi-party linkage emergency command processing device comprises a command center terminal, an emergency individual soldier terminal, a cooperative rescue terminal and a linkage command terminal;

the command center terminal comprises a plurality of control center units and a display unit, wherein the control center units are connected in parallel to form a multi-active operation mode, and each control center unit has the function of controlling the command right of the center through a key pipeline network; the database arrangement processing of the control center units is synchronized through a database synchronization module, so that the service is uninterrupted and the data is not lost; the control center unit is also used for dispatching, commanding and monitoring pipeline train operation, passenger flow change, power supply, equipment operation, disaster prevention alarm, environment monitoring, ticket management and passenger service information; an emergency command platform is also arranged in the control center unit; the emergency command platform is provided with an independent space and comprises a plurality of host display devices; the emergency command platforms are communicated with various equipment protocols and interfaces, so that software and hardware information of each subsystem is borne and collected, and scattered and independent service systems are integrated and managed uniformly; the display unit is used for intuitively displaying various data information of the rail transit road network;

the emergency individual soldier terminal is connected with the control center unit through a network to realize bidirectional data communication, and comprises intelligent wearable equipment, an unmanned aerial vehicle, wireless networking equipment, a positioner and an emergency command platform, wherein the intelligent wearable equipment, the unmanned aerial vehicle and the positioner transmit data information sets to the emergency command vehicle and the emergency command platform through the wireless networking equipment respectively so as to realize emergency communication and monitoring of an interrupted area, and real-time audio and video geographic position data information of an emergency scene is dispatched back to the emergency command platform;

the cooperative rescue terminal comprises a public transportation cooperative unit, a public security cooperative unit, a fire-fighting cooperative unit and a hospital cooperative unit; the emergency collaborative rescue system is respectively used for emergency collaborative rescue under a series of emergency events such as bus connection, alarm, flood, fire and casualties; the cooperative rescue terminal also realizes the transmission of bidirectional data through network communication and an emergency command platform;

the linkage command terminal is in bidirectional data communication with the command center terminal, is used for establishing data transmission, voice call and video access when handling major emergency, and meets audio and video conference, remote consultation, cooperative operation and comprehensive research and judgment of front and rear and related departments by taking the event as the center.

The display unit adopts an LED center large screen, the number of pixels is 1024 × 768, and the brightness is 1050cd/m2.

The linkage command terminal comprises government management units commanded by provincial, municipal and regional government departments, traffic management units commanded by the traffic management departments, emergency management units commanded by the emergency command departments and propaganda management units commanded by the propaganda departments.

Furthermore, the government management unit, the traffic management unit, the emergency management unit and the propaganda management unit keep information interconnection and intercommunication and information sharing; so that when handling a major emergency, data transmission, voice call, video access are established.

The emergency command platform further comprises a special telephone unit which is used for realizing direct communication with a command department under the condition that each line master officer dispatches an emergency.

Furthermore, the emergency command platform further comprises a broadcast player which is arranged in an exclusive area of a hall of the emergency command center and used for issuing a broadcast for commanding and scheduling in the hall under an emergency condition.

Furthermore, the emergency command platform is further connected with a power distribution unit, and the power distribution unit comprises a UPS host and a storage battery set, so that the emergency command platform can supply power uninterruptedly for 24 hours.

The emergency individual soldier terminal can adopt a public network data line, an ad hoc network data link and a satellite data line to transmit information data so as to ensure the safety and timeliness of data transmission.

The utility model discloses compare in prior art's beneficial effect be: the emergency command equipment has the following advantages:

1) The multi-activity operation and high flexibility are achieved: the utility model adopts the construction of the 'multi-living' center based on the cloud framework, the number of the control centers is flexibly set according to the scale of the wire network, and a plurality of control centers have the function of keying the command right of the wire network, thus realizing the flexible starting of the command center at the key moment and the rapid online operation;

2) The multi-party coordination linkage is high in efficiency: the utility model establishes matched grade disposal response according to different damage degrees of the emergency, including emergency individual soldier, cooperative rescue and linkage command, aiming at the factors such as the type, the characteristics and the influence of the emergency, and fully ensuring the response level of the emergency linkage disposal process;

3) Communication is converged, unified and efficient: the utility model adopts the fusion communication technology, needs to get through various equipment protocols and interfaces for emergency management, supports the access of multi-source heterogeneous communication equipment, and has the functions of covering the traditional conference terminal, the internal line telephone, the intercommunication digital cluster, the public network telephone, the monitoring system, the cloud video conference, the intelligent conference, the satellite telephone and the like; the quick response of various emergency services such as related data acquisition, real-time communication, command deployment, field support and the like can be realized, the emergency information can be timely and accurately collected, and effective information support is provided for scientific decision;

4) Safety and stability: the multi-life center of the utility model adopts the construction of three-level equal security system of national security requirements, namely infrastructure disaster recovery, data disaster recovery and application disaster recovery; the system has a disaster recovery architecture, multiple storage activities and multiple application activities, and ensures that services are not interrupted and data are not lost when one control center is down in the event of an emergency;

5) Comprehensive and accurate: the utility model relates to an emergent individual soldier operation system can effectively solve because of the emergent response under the extreme adverse circumstances such as communication interruption, control dead angle, large tracts of land outage when calamity or emergency. The audio, video, images, data and the like of a disaster site can be sent to a command center, so that the dangerous case can be clearly and accurately judged, a better emergency decision can be made in an auxiliary manner, and comprehensive dispatching and commanding are realized.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the description below are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without inventive labor.

Fig. 1 is a block diagram of the overall structure connection process of the present invention.

Fig. 2 is a schematic diagram of data transmission according to the present invention.

Fig. 3 is a block diagram of the connection process of the command center terminal of the present invention.

Fig. 4 is a schematic diagram of the cloud architecture platform of the emergency command device of the present invention.

Fig. 5 is a simulation diagram of the multi-directional linkage of the emergency command device of the present invention.

In the figure: 1-command center terminal, 101-control center unit, 102-display unit, 103-emergency command platform, 104-special telephone unit, 105-broadcast player, 106-power distribution unit, 107-database synchronization module, 2-emergency individual soldier terminal, 201-intelligent wearable equipment, 202-unmanned aerial vehicle, 203-wireless networking unit, 204-locator, 205-emergency command vehicle, 3-cooperative rescue terminal, 301-bus cooperation unit, 302-police cooperation unit, 303-fire-fighting cooperation unit, 304-hospital cooperation unit, 4-linkage command terminal, 401-government management unit, 402-traffic management unit, 403-emergency management unit, 404-propaganda management unit.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that unless otherwise explicitly stated or limited, the terms "mounted," "connected" and "disposed" are to be construed broadly, and may for example be fixedly connected, disposed, detachably connected, disposed, or integrally connected and disposed. The specific meaning of the above terms in the present invention can be understood as a specific case by those skilled in the art.

The embodiment is as follows: as shown in fig. 1-5:

a multi-party linkage emergency command processing device comprises a command center terminal 1, an emergency individual soldier terminal 2, a collaborative rescue terminal 3 and a linkage command terminal 4. The problem that the urban rail transit operation network cannot timely perform collaborative rescue and multi-party linkage command in emergencies such as flood disasters and fires is solved.

Wherein, as shown in fig. 2: the command center terminal 1 is used for network supervision and emergency command, the whole command system adopts a converged communication technology, and supports access of multi-source heterogeneous communication equipment by opening protocols and interfaces of various connecting equipment; the system has the functions of covering the traditional conference terminal, an internal line telephone, an intercom digital cluster, a public network telephone, a monitoring system, a cloud video conference, an intelligent conference, a satellite telephone and the like.

As shown in fig. 3: the command center terminal 1 includes a control center unit 101 and a display unit 102. Further, the plurality of control center units 101 are connected in parallel, and the plurality of control center units 101 adopt a "multi-active" operation mode, have a multi-active operation characteristic, process services at the same time, and each line data sink node accesses nearby. The databases of the multiple control center units 101 are synchronized by the database synchronization module 107, and the database synchronization module 107 adopts data synchronization software to ensure uninterrupted service and no data loss. The display unit 102 is used for displaying various data information of the rail transit network; in the present embodiment, the display unit 102 employs an LED center large screen, with 1024 × 768 pixels and 1050cd/m2 luminance.

In a further preferred embodiment, the control center units 101 are configured to perform scheduling, commanding and monitoring on train operation, passenger flow change, power supply, equipment operation, disaster prevention alarm, environment monitoring, ticket management, and passenger service on branch lines, and each control center unit 101 has a command right function of a keyed pipeline network control center.

Wherein, control center unit 101 is based on cloud architecture design, and adopts and to merge communication technology, supports the heterogeneous communications facilities of multisource to insert, possesses the function that covers traditional conference terminal, interior line telephone, digital cluster, public network telephone, monitored control system of talkbacking to and cloud video conference, intelligent meeting, satellite telephone. The control center unit 101 is further provided with a dedicated telephone unit 104 for realizing direct communication with the command department under the emergency condition of each line master control dispatching.

As shown in fig. 4, the control center unit 101 is built by using a "multi-activity" center based on a cloud architecture, and can be conveniently expanded along with the increase of network services, and the urban rail transit operation network is provided with a plurality of control centers, and the multi-control centers perform "multi-activity" operation, and have the functions of storing more activities and applying more activities. When one of the control centers has an emergency, the service is not interrupted and the data is not lost. The plurality of control centers have a key joint pipeline network command right function, and the key moment command centers are flexibly arranged and can be rapidly operated on line.

Further, a plurality of control center units process services simultaneously, each line data sink node is accessed nearby, and a plurality of control center databases are synchronized through the database synchronization module 107. In particular, the control center unit 101 is used for dispatching, commanding and monitoring train operation, passenger flow change, power supply, equipment operation, disaster prevention alarm, environment monitoring, ticket management, passenger service, and the like. When a disaster occurs in the command center terminal 1 where any control center unit 101 is located, the production cloud server protected by the cloud server high-availability service automatically switches the service governed by the control center unit 101 to the other control center units 101 in a seamless manner, so that uninterrupted service is ensured, and data is not lost.

In a further preferred embodiment, the control center unit 101 further comprises an emergency command platform 103. The emergency command platform 103 has independent space areas and comprises a plurality of hosts and host display equipment. The command center is a command center terminal 1, a huge high-definition display screen and various workstations are arranged in the command center, and the large high-definition display screen displays operation data information such as line trains, passenger flows and the like in the branch management area in real time.

Furthermore, the emergency command platforms 103 adopt a unified open and matched shared data mode by opening various equipment protocols and interfaces, reduce repeated construction loose coupling architecture, reduce expansion, upgrade and reconstruction costs, and realize low threshold to quickly realize building block type scene construction application of new functions, so that software and hardware information of each subsystem is borne and collected, and each dispersed and independent service system is integrated and managed uniformly.

The emergency command platform 103 further includes a dedicated broadcast player 105 disposed in a hall area of the emergency command center, and is configured to issue a command and dispatch broadcast in the hall under emergency. The emergency command platform 103 is further connected with a power distribution unit 106, and the power distribution unit 106 comprises a UPS host and a storage battery set, so that the emergency command platform 103 can supply power uninterruptedly for 24 hours.

In this embodiment, the emergency individual soldier terminal 2 is connected with the command center terminal 1 through a network to implement bidirectional data communication. As shown in fig. 5: the emergency individual terminal 2 comprises an intelligent wearable device 201, an unmanned aerial vehicle 202, a wireless networking unit 203, a locator 204 and an emergency command vehicle 205. Wherein, wearable equipment 201 of intelligence, unmanned aerial vehicle 202, locator 204 transmit data information set to emergency command car 205 and emergency command platform 103 through wireless network deployment unit 203 respectively to make emergency communication and control interrupt area, the on-the-spot real-time audio frequency and video geographical position data information of emergency dispatches back emergency command platform 103, so that command center terminal 1 can be clear accurate judgement dangerous situation, reach the accurate long-range operation of calamity scene condition and instruct, ensure to promote rescue team's emergency response ability.

In a further preferred embodiment, the smart wearable device 201 comprises an AI smart helmet, a thermal imager, and the like, and the wireless networking unit 203 comprises an ad hoc network base station, a backpack ad hoc network individual, and a handheld ad hoc network hand-table. The ad hoc network hand-held station has the characteristics of long communication distance, strong anti-interference capability and good anti-aging performance, and realizes the voice call function in a centerless multi-hop networking mode. The individual soldiers in the backpack ad hoc network support relay and multi-hop, wireless voice talkback among the individual soldiers is realized, and audio and video transmission of a high-definition camera is realized. The ad hoc network base station ensures that the whole individual soldier system does not depend on any basic communication facility and is quickly deployed and constructed as required to construct a local area wireless private network. Meanwhile, the network has the capabilities of self-organization, self-recovery and high survivability, and supports multi-media service multi-hop transmission such as video transmission, data, voice call and the like.

In a further preferred embodiment, the locator 204 employs an inertial navigation/satellite combined positioning technology, and is used for realizing accurate positioning and geographical position information of the position of an individual soldier emergency worker, and ensuring accurate rescue when a danger occurs. Unmanned aerial vehicle 202 possesses interface access, cruises, carries, functions such as high definition shooting. The unmanned aerial vehicle 202 interface is used for accessing the unmanned aerial vehicle or accessing a ground receiver wirelessly connected with the unmanned aerial vehicle, and scheduling audio and video information acquired by the unmanned aerial vehicle 202 to the emergency command platform 103.

Further preferred embodiment, in this embodiment, the emergency individual soldier terminal 2 is equipped with an emergency power supply, and the emergency power supply adopts a lithium battery with light weight, small volume and high energy density, and can meet the requirement that the individual soldier personnel in emergency operation uninterruptedly supply power for 24 hours. The emergency individual soldier terminal 2 can adopt a public network data line, an ad hoc network data link and a satellite data line to transmit information data, so that the safety, stability and timeliness of data transmission are ensured; by the arrangement, the safety, stability and timeliness of picture, audio, video and data transmission are ensured, the interconnection and intercommunication between the emergency site and the command center are ensured, and the quick response of emergency events and the synchronous update of event information are realized.

In this embodiment, the cooperative rescue terminal 3 includes a public transportation cooperative unit 301, a public security cooperative unit 302, a fire-fighting cooperative unit 303, and a hospital cooperative unit 304. The emergency collaborative rescue system is respectively used for emergency collaborative rescue under a series of emergency events such as bus connection, alarm condition, flood, fire and casualties. The cooperative rescue terminal 3 also realizes the transmission of bidirectional data with the command center terminal 1 through network communication.

In this embodiment, the linkage commanding terminal 4 maintains bidirectional data communication and instruction transmission with the commanding center terminal 1, and is used for establishing data transmission, voice call and video access when handling a major emergency, and meets audio and video conference, remote consultation, cooperative combat and comprehensive research and judgment of front and rear and related departments by taking the event as a center.

The linkage commanding terminal 4 comprises a government management unit 401 commanded by provincial, municipal and regional government departments, a traffic management unit 402 commanded by the traffic management department, an emergency management unit 403 commanded by the emergency command department and a propaganda management unit 404 commanded by the propaganda department. The government management unit 401, the traffic management unit 402, the emergency management unit 403 and the propaganda management unit 404 maintain information interconnection and intercommunication and information sharing, so that when major emergency is handled, data transmission, voice call and video access are established, and the audio and video conference of front and rear and related departments and the audio and video conference of the front and rear and related departments are met by taking the event as a center, and the capabilities of remote consultation, cooperative combat and comprehensive research and judgment are realized.

The above description is only for the preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The utility model provides an emergency command processing equipment of many ways linkage which characterized in that: the system comprises a command center terminal, an emergency individual soldier terminal, a collaborative rescue terminal and a linkage command terminal;

the command center terminal comprises a plurality of control center units and a display unit, wherein the plurality of control center units are connected in parallel and form a multi-active operation mode, and each control center unit has the function of keying a pipeline network control center command right; the database arrangement processing of the control center units is synchronized through a database synchronization module, so that the service is uninterrupted and the data is not lost; the control center unit is also used for dispatching, commanding and monitoring the operation of the shunt line train, the change of passenger flow, power supply, equipment operation, disaster prevention alarm, environment monitoring, ticket management and passenger service information; an emergency command platform is also arranged in the control center unit; the emergency command platform is provided with an independent space and comprises a plurality of host display devices; the emergency command platforms are used for bearing and collecting software and hardware information of each subsystem through opening equipment protocols and interfaces, and integrating and managing each dispersed and independent service system; the display unit is used for visually displaying the data information of the rail transit road network;

the emergency individual soldier terminal is connected with the control center unit through a network to realize bidirectional data communication, and comprises intelligent wearable equipment, an unmanned aerial vehicle, a wireless networking unit, a positioner and an emergency command vehicle, wherein the intelligent wearable equipment, the unmanned aerial vehicle and the positioner transmit data information sets to the emergency command vehicle and an emergency command platform through the wireless networking unit respectively so that emergency communication and monitoring of an interrupted area are realized, and real-time audio and video geographic position data information of an emergency scene is dispatched back to the emergency command platform;

the cooperative rescue terminal comprises a public transportation cooperative unit, a public security cooperative unit, a fire-fighting cooperative unit and a hospital cooperative unit; the emergency collaborative rescue system is respectively used for emergency collaborative rescue under a series of emergency events such as bus connection, alarm condition, flood, fire and casualties; the cooperative rescue terminal also realizes the bidirectional data transmission with the emergency command platform through network communication;

the linkage command terminal is in bidirectional data communication with the command center terminal, is used for establishing data transmission, voice call and video access when handling major emergency, and meets the requirements of audio and video conference, remote consultation, cooperative combat and comprehensive research and judgment of front and rear and related departments by taking the event as the center.

2. The multi-party emergency command processing device of claim 1, wherein: the display unit adopts an LED center large screen, the pixels are 1024 x 768, and the brightness is 1050cd/m2.

3. The multi-party emergency command processing device of claim 1, wherein: the linkage command terminal comprises government management units commanded by provincial, municipal and regional government departments, traffic management units commanded by the traffic management departments, emergency management units commanded by the emergency command departments and propaganda management units commanded by the propaganda departments.

4. The multi-party emergency command processing device of claim 3, wherein: the government management unit, the traffic management unit, the emergency management unit and the propaganda management unit keep information interconnection and intercommunication and information sharing.

5. The multi-party emergency command processing device of claim 1, wherein: the emergency command platform also comprises a special telephone unit which is used for realizing direct communication with a command department under the condition that each line master officer dispatches an emergency.

6. The device of claim 5, wherein: the emergency command platform also comprises a broadcast player which is arranged in the area exclusive to the hall of the emergency command center and is used for broadcasting and issuing command and dispatching in the command hall under the emergency condition.

7. The multi-party emergency command processing device of claim 6, wherein: the emergency command platform is further connected with a power distribution unit, and the power distribution unit comprises a UPS host and a storage battery pack, so that the emergency command platform can supply power uninterruptedly for 24 hours.

8. The multi-party emergency command processing device of claim 1, wherein: the emergency individual soldier terminal can adopt a public network data line, an ad hoc network data link and a satellite data line to transmit information data so as to ensure that the data transmission is timely.

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