CN210536953U - Emergency communication system - Google Patents

Abstract

The utility model provides an emergency communication system relates to communication equipment technical field. The emergency communication system includes: the system comprises a vehicle-mounted platform subsystem, an antenna feeder subsystem, a power supply subsystem, a transmission subsystem and a wireless equipment subsystem which are detachably connected; the vehicle-mounted platform subsystem comprises a carrying vehicle, the carrying vehicle comprises a hopper, an antenna base and a base are arranged in the hopper, the antenna base is used for fixing the antenna feeder subsystem, and the base is used for fixing the power supply subsystem, the transmission subsystem and the wireless equipment subsystem. The main functions of the emergency communication vehicle are realized by using the base station equipment commonly used in the existing network and flexibly combining, and the environment for opening the base station is provided for operators. The purposes that the base station is rapidly unfolded and rapidly opened, and the emergency guarantee task can be completed with high quality are achieved, so that the purposes of convenient transportation and rapid deployment are achieved.

Description

Emergency communication system

Technical Field

The utility model relates to a communication equipment technical field, in particular to emergency communication system.

Background

When the communication emergency guarantee is needed temporarily, the traditional base station has long construction period and high investment, and can use the emergency communication vehicle to deploy wireless signals. However, the conventional base station system and the emergency communication vehicle modified by the box train, which is relatively common at present, need the cooperation of the mast system, the power supply system and the environmental support system to provide a stable operation environment for the wireless main equipment, and also need to install anchor points for installing equipment such as antennas. In the actual use process of traditional emergency communication car, there are some shortcomings: the communication vehicle is too large in size and not beneficial to flexible deployment, and the existing communication vehicle is difficult to reach in mountains, islands, unmanned areas and other areas; secondly, the cost is high, the chassis of a heavy truck or an off-road truck is generally used for the existing communication vehicle, and the price of one emergency communication vehicle is about one million and fifty thousand; and thirdly, the flexible and rapid deployment cannot be realized, the existing communication vehicle is limited by a vehicle chassis, and the vehicle cannot reach areas such as a mountain top and the like in a road section with limited width and limited height in time.

Therefore, in order to ensure timely guarantee of emergency communication, an emergency communication system that can be deployed quickly and is not restricted by a special section of road is required.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides an emergency communication system for solve the problem that current emergency communication car can't communicate the guarantee fast owing to bulky, the inflexible problem that causes.

In order to solve the technical problem, the utility model discloses a following technical scheme:

an emergency communication system, comprising:

the system comprises a vehicle-mounted platform subsystem, an antenna feeder subsystem, a power supply subsystem, a transmission subsystem and a wireless equipment subsystem which are detachably connected;

the vehicle-mounted platform subsystem comprises a carrying vehicle, the carrying vehicle comprises a hopper, an antenna base and a base are arranged in the hopper, the antenna base is used for fixing the antenna feeder subsystem, and the base is used for fixing the power supply subsystem, the transmission subsystem and the wireless equipment subsystem.

Further, the antenna feeder subsystem comprises: antenna, combiner, right angle head, two-in one-out electric bridge and feeder connector.

Further, the power supply subsystem includes: the power supply line, the power generation device and the integrated outdoor power supply cabinet are provided with a storage battery.

Further, the transmission subsystem includes: packet transport network PTN devices and/or microwave transmission devices.

Further, the wireless device subsystem comprises: the device comprises a cabinet, wherein a Packet Transport Network (PTN) device and a baseband processing unit (BBU) device are arranged in the cabinet.

Further, a heat dissipation structure is installed in the cabinet;

the top of the cabinet is provided with a waterproof structure.

The utility model has the advantages that:

according to the scheme, the main functions of the emergency communication vehicle are realized by using the base station equipment commonly used in the existing network and flexibly combining, and the base station opening environment is provided for operators. The base station can be rapidly unfolded and rapidly opened, and the emergency guarantee task can be finished with high quality. And the functions of a remote base station, a macro base station and a micro station can be realized by adopting the flexible combination of different modules. And each module can be transported quickly by a pick-up truck and can also reach areas such as mountaintops and the like which can not be reached by vehicles in a mode of carrying people on the back and shoulders. Thereby realizing the purposes of convenient transportation and rapid deployment.

Drawings

Fig. 1 shows one of the schematic structural diagrams of an emergency communication system according to an embodiment of the present invention;

fig. 2 shows a second schematic structural diagram of an emergency communication system according to an embodiment of the present invention;

fig. 3 is a third schematic structural diagram of the emergency communication system according to the embodiment of the present invention.

Description of reference numerals:

1-a carrier vehicle; 2-a car hopper; and 3, a base.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

The utility model discloses to current emergency communication car because bulky, inflexible event can't carry out the problem of communication guarantee fast, provide an emergency communication system.

As shown in fig. 1 to 3, an embodiment of the present invention provides an emergency communication system, including:

the system comprises a vehicle-mounted platform subsystem, an antenna feeder subsystem, a power supply subsystem, a transmission subsystem and a wireless equipment subsystem which are detachably connected;

the vehicle-mounted platform subsystem comprises a carrying vehicle 1, the carrying vehicle 1 comprises a hopper 2, an antenna base and a base 3 are arranged in the hopper, the antenna base is used for fixing the antenna feeder subsystem, and the base 3 is used for fixing the power supply subsystem, the transmission subsystem and the wireless equipment subsystem.

The embodiment of the utility model provides a through using the basic station equipment commonly used in the present net, through nimble combination, realize the main function of emergency communication car, provide the environment that the basic station was opened for the operator. The base station can be rapidly unfolded and rapidly opened, and the emergency guarantee task can be finished with high quality. And the functions of a remote base station, a macro base station and a micro station can be realized by adopting the flexible combination of different modules. And each module can be transported quickly by a pick-up truck and can also reach areas such as mountaintops and the like which can not be reached by vehicles in a mode of carrying people on the back and shoulders. Thereby realizing the purposes of convenient transportation and rapid deployment.

It should be noted that, in view of the quick accessibility and quick deployment, it is preferable to use a common pick-up truck or a minivan as a carrier vehicle for the on-board platform subsystem. The vehicle-mounted platform subsystem provides daily transportation of the communication system, and can be used as equipment to be unfolded and used as an antenna base in an emergency state. An antenna base and a base are arranged in the car hopper and are used for providing fixed anchor points for other subsystems. Specifically, the installation positions of the subsystems on the base are random.

Specifically, the antenna feeder subsystem comprises: antenna, combiner, right angle head, two-in one-out electric bridge and feeder connector.

Specifically, the power supply subsystem includes: the power supply line, the power generation device and the integrated outdoor power supply cabinet are provided with a storage battery.

It should be noted that, in consideration of the diversity of the external environment used by the emergency communication system, the power supply subsystem serving as the system power supply is configured to have a system with various forms of power supply to adapt to various complex environments, and generally uses the commercial power ac to supply power; under the condition that alternating current power supply cannot be realized, the power generation device can be directly used for generating power; and under the emergency condition, the storage battery in the integrated outdoor power supply cabinet is used for supplying power.

Specifically, the transmission subsystem includes: packet transport network PTN devices and/or microwave transmission devices.

It should be noted that, the PTN device or the microwave transmission device may be selected for assembly according to different scenarios and task needs. Preferably, the transmission device can meet the transmission requirements of the GSM/LTE device.

Specifically, the wireless device subsystem includes: the device comprises a cabinet, wherein a Packet Transport Network (PTN) device and a baseband processing unit (BBU) device are arranged in the cabinet.

Preferably, the wireless device subsystem may be retrofitted from a standard cabinet of 1.2 meters by 0.6 meters. The cabinet may be used to mount PTN devices for transmission, BBU devices, and the like. Specifically, a heat dissipation structure is installed in the cabinet; optionally, in order to adapt to different environments and prevent equipment in the cabinet from being wetted, a waterproof structure is arranged at the top of the cabinet.

It should be noted that the embodiment of the present invention can realize multiple functions through flexible assembly of multiple modules. For example, the antenna feeder subsystem and the power supply subsystem can realize rapid deployment of a remote base station, the wireless device subsystem and the power supply subsystem can realize deployment of a transmission node, and the antenna feeder subsystem, the power supply subsystem and the LTE RELAY device can realize simple coverage of LTE signals.

The foregoing is directed to the preferred embodiments of the present invention, and it will be understood by those skilled in the art that various changes and modifications may be made without departing from the principles of the invention, and that such changes and modifications are intended to be included within the scope of the invention.

Claims (6)

1. An emergency communication system, comprising:

the system comprises a vehicle-mounted platform subsystem, an antenna feeder subsystem, a power supply subsystem, a transmission subsystem and a wireless equipment subsystem which are detachably connected;

the vehicle-mounted platform subsystem comprises a carrying vehicle, the carrying vehicle comprises a hopper, an antenna base and a base are arranged in the hopper, the antenna base is used for fixing the antenna feeder subsystem, and the base is used for fixing the power supply subsystem, the transmission subsystem and the wireless equipment subsystem.

2. The emergency communication system of claim 1, wherein the antenna feed subsystem comprises: antenna, combiner, right angle head, two-in one-out electric bridge and feeder connector.

3. The emergency communication system of claim 1, wherein the power supply subsystem comprises: the power supply line, the power generation device and the integrated outdoor power supply cabinet are provided with a storage battery.

4. The emergency communication system of claim 1, wherein the transmission subsystem comprises: packet transport network PTN devices and/or microwave transmission devices.

5. The emergency communication system of claim 1, wherein the wireless device subsystem comprises: the device comprises a cabinet, wherein a Packet Transport Network (PTN) device and a baseband processing unit (BBU) device are arranged in the cabinet.

6. The emergency communication system of claim 5, wherein a heat dissipating structure is mounted within the cabinet;

the top of the cabinet is provided with a waterproof structure.

Images