CN218850772U - Ad hoc network communication radio station - Google Patents

Abstract

The application relates to an ad hoc network communication radio station, which comprises an ad hoc network communication module and 2 panel antennas, wherein the ad hoc network communication module is arranged between the 2 panel antennas. First, from the connected mode of network deployment communication module setting in the middle of two panel antennas, can avoid from the sheltering from of network deployment communication module to panel antenna radiation direction, be favorable to antenna signal's stable transmission, can satisfy the long-range, high-rate data transmission demands such as audio frequency and video of underground power supply piping lane. Secondly, the panel antennas are arranged on two sides, so that the 180-degree direction radiation of the panel antennas can be realized, and the directivity of the panel antennas is multiplied.

Description

Ad hoc network communication radio station

Technical Field

The application relates to the technical field of ad hoc network communication, in particular to an ad hoc network communication radio station.

Background

Most of the existing electric power overhaul technologies rely on public networks, interphones, bridges and the like for audio and video transmission, and no practical and reliable communication means is provided for realizing stable audio and video transmission of underground power supply pipe corridors.

For a power supply pipe gallery, the existing communication technology has the disadvantages that the cost for building a public network base station is too high, the use frequency is not high, and operators considering the value of ARPU are not willing to invest a large amount of investment; the interphone can only transmit voice due to narrow bandwidth; although the network bridge can transmit high-speed audio and video, the penetration capability is poor, and the transmission capability is limited when a power supply pipe gallery turns.

Disclosure of Invention

Therefore, it is necessary to provide an ad hoc network communication station to meet the data transmission requirements of long-distance and high-speed audio and video.

An ad hoc network communication station, comprising:

the system comprises an ad hoc network communication module and 2 panel antennas;

the ad hoc network communication module is arranged among the 2 panel antennas.

In one embodiment, the ad hoc network communication module is fixedly arranged among the 2 panel antennas through screws.

In one embodiment, the panel antenna is a 5.8G dual directional panel antenna.

In one embodiment, an ad hoc network communication module comprises:

the device comprises a baseband processor, an up-converter, a down-converter, a first filter circuit, a second filter circuit, a power amplifier, a low-noise amplifier, a switch circuit and a third filter circuit;

the baseband processor, the up-converter, the first filter circuit, the power amplifier, the switch circuit, the low-noise amplifier, the second filter circuit and the down-converter are sequentially connected to form a closed loop;

the third filter circuit is disposed between the switch circuit and the flat panel antenna.

In one embodiment, the station further comprises a power circuit and a battery;

the power circuit and the battery are connected with the ad hoc network communication module and used for providing power for the ad hoc network communication module;

the power supply circuit is connected with the baseband processor;

the power circuit is connected with the battery and used for charging the battery.

In one embodiment, the station further comprises a WIFI module;

the WIFI module is connected with the ad hoc network communication module and the baseband processor and used for converting the wired network port into a wireless WIFI signal and setting network parameters.

In one embodiment, the station further comprises a network module;

the network module is connected with the ad hoc network communication module and the baseband processor and used for providing a network data configuration interface.

The ad hoc network communication radio station comprises an ad hoc network communication module and 2 panel antennas, wherein the ad hoc network communication module is arranged between the 2 panel antennas. First, from the connected mode of network deployment communication module setting in the middle of two panel antennas, can avoid from the sheltering from of network deployment communication module to panel antenna radiation direction, be favorable to antenna signal's stable transmission, can satisfy the long-range, high-rate data transmission demands such as audio frequency and video of underground power supply piping lane. Secondly, the panel antenna is arranged on two sides, so that 180-degree radiation of the panel antenna can be realized, and the directivity of the panel antenna is multiplied.

Drawings

Fig. 1 is a schematic block diagram of an ad hoc network communication station in one embodiment;

fig. 2 is a schematic diagram of a 5.8G ad hoc network communication station in one embodiment;

FIG. 3 is a schematic diagram illustrating the connection between an ad hoc network module and a patch antenna in one embodiment;

fig. 4 is a schematic diagram of an internal structure of an ad hoc network communication module.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more clearly understood, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

In one embodiment, as shown in fig. 1, there is provided an ad hoc network communication station comprising:

ad hoc network communication module and 2 panel antennas. Wherein, ad hoc network communication module sets up between 2 panel antennas.

A patch antenna refers to an antenna that propagates in only one particular direction. Planar antennas are typically used in a point-to-point situation. They are also called "patch antennas". The panel antenna has a plurality of oscillators, slot antennas and the like, and the panel antenna has the centralized characteristics of small volume, light weight and convenient installation and use; the built-in tuner enables the antenna and the tuner to be integrated, and adjustment is convenient; the efficiency of the panel antenna is high.

The connection mode that from network deployment communication module set up in the middle of two panel antennas can avoid from network deployment communication module to the sheltering from of panel antenna radiation direction, is favorable to antenna signal's stable transmission, can satisfy the long-range, high-rate data transmission demands such as audio frequency and video of underground power supply piping lane. Meanwhile, the panel antennas are arranged on two sides of the ad hoc network communication module, so that 180-degree directional radiation of the panel antennas can be realized, and the directivity of the panel antennas is multiplied.

In one embodiment, the panel antenna is a 5.8G dual directional panel antenna. At the moment, the ad hoc network communication module and the two 5.8G dual-directional panel antennas form a 5.8G ad hoc network communication radio station. Fig. 2 is a schematic diagram of a 5.8G ad hoc network communication station structure.

The 5.8G ad hoc network communication radio station uses ad hoc network technology, applies a 5.8G frequency band directional antenna, realizes independent of preset infrastructure, and has the characteristics of temporary networking, quick expansion, no control center, strong survivability and the like. In addition, the 5.8G frequency band communication radio station is farther away and has higher speed than other frequency band communication radio stations.

Through field test, the maintenance worker carries 5.8G ad hoc network communication radio station and audio and video terminal to overhaul the electric power at underground power pipe gallery, and the communication distance can reach more than two kilometers. The audio and video of the overhaul workers are transmitted to the command terminal through the 5.8G ad hoc network communication radio station, and the command terminal carries out audio and video conversation and remote command with the overhaul workers through dispatching command software. The technology can be widely applied to the field of underground pipe gallery communication, so that long-distance and high-speed data transmission is realized.

In one embodiment, the ad hoc network communication module is fixedly arranged among the 2 panel antennas through screws. As shown in fig. 3, a schematic diagram of the connection between the ad hoc network module and the panel antenna is provided. In a specific application, other connection modes can be selected according to actual requirements.

In one embodiment, an ad hoc network communication module comprises:

the device comprises a baseband processor, an up-converter, a down-converter, a first filter circuit, a second filter circuit, a power amplifier, a low-noise amplifier, a switch circuit and a third filter circuit;

the baseband processor, the up-converter, the first filter circuit, the power amplifier, the switch circuit, the low-noise amplifier, the second filter circuit and the down-converter are sequentially connected to form a closed loop;

the third filter circuit is disposed between the switch circuit and the flat panel antenna.

In one embodiment, the station further comprises a power circuit and a battery;

the power circuit and the battery are connected with the ad hoc network communication module and used for providing power for the ad hoc network communication module;

the power circuit is connected with the baseband processor;

the power circuit is connected with the battery and used for charging the battery.

In one embodiment, the station further comprises a WIFI module;

the WIFI module is connected with the ad hoc network communication module and the baseband processor and used for converting the wired network port into a wireless WIFI signal and setting network parameters.

In one embodiment, the station further comprises a network module;

the network module is connected with the ad hoc network communication module and the baseband processor and used for providing a network data configuration interface.

As shown in fig. 4, a schematic diagram of an internal structure of an ad hoc network communication module is provided.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is specific and detailed, but not to be understood as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, and these are all within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (6)

1. An ad-hoc network communication station, comprising:

the system comprises an ad hoc network communication module and 2 panel antennas;

the ad hoc network communication module is arranged among the 2 panel antennas;

the ad hoc network communication module comprises:

the device comprises a baseband processor, an up-converter, a down-converter, a first filter circuit, a second filter circuit, a power amplifier, a low-noise amplifier, a switch circuit and a third filter circuit;

the baseband processor, the up-converter, the first filter circuit, the power amplifier, the switch circuit, the low-noise amplifier, the second filter circuit and the down-converter are sequentially connected to form a closed loop;

the third filter circuit is disposed between the switch circuit and the panel antenna.

2. The ad hoc network communication radio station according to claim 1, wherein the ad hoc network communication module is fixed between the 2 plate antennas by screws.

3. The ad-hoc network communication station of claim 1, wherein the panel antenna is a 5.8G dual directional panel antenna.

4. The ad-hoc network communication station according to claim 3, wherein said station further comprises a power circuit and a battery;

the power circuit and the battery are connected with the ad hoc network communication module and used for providing power for the ad hoc network communication module;

the power supply circuit is connected with the baseband processor;

the power circuit is connected with the battery and is used for charging the battery.

5. The ad-hoc network communication station of claim 1, wherein said station further comprises a WIFI module;

the WIFI module is connected with the ad hoc network communication module and the baseband processor and used for converting a wired network port into a wireless WIFI signal and setting network parameters.

6. An ad-hoc network communication station as claimed in claim 1, characterised in that the station further comprises a network module;

the network module is connected with the ad hoc network communication module and the baseband processor and used for providing a network data configuration interface.

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