CN212969689U - Remote network-free area network relay coverage system - Google Patents

Abstract

The utility model provides a no network area network relay cover system far away, including first support and second support, the upper portion of first support is equipped with the 4G that is used for converting the 4G signal into wired network signal and changes wired route module, and the top of first support and second support respectively is equipped with a bridge equipment fixing frame and is used for installing wireless bridge equipment. The utility model converts the 4G signal sent by the operator communication base station into a wired network signal, and then transmits the wired network signal to a remote area where the 4G signal is hard to reach through the wireless network bridge equipment; the laser transmitting device is arranged to enable the wireless network bridge transmitting end and the wireless network bridge receiving end to be in a state of being opposite after being installed, and the best signal transmission effect is achieved; simple structure, whole device low cost, the angular adjustment and the routine maintenance of being convenient for are fit for popularizing and applying in 4G signal and the area that the broadband is difficult to cover such as remote mountain area, pastoral area, mining area.

Description

Remote network-free area network relay coverage system

Technical Field

The utility model belongs to the technical field of communication equipment, a no network area network relay coverage system far away is related to.

Background

The network is widely used in the fields of equipment communication, education, traffic, internet of things, software resource sharing and the like, and as network transmission, equipment installation and the like are limited by economic conditions and geographical topography, coverage of network broadband is often incomplete in remote areas such as mountainous areas, pastoral areas or mining areas, so that the use of part of users is limited, and even no network state occurs. The remote rural areas, especially mountainous areas, are affected by terrain, broadband equipment cannot be laid, so that users do not have networks, or the rate of the remote user networks is reduced due to long-distance transmission, and further network congestion occurs. Meanwhile, the mobile communication base station signals such as 4G and the like cannot be received due to terrain shielding, and great inconvenience is brought to users in remote areas.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a remote no network area network relay coverage system to the problem that prior art exists.

Therefore, the utility model adopts the following technical scheme:

a remote network-free area network relay coverage system comprises a first support and a second support, wherein the first support is arranged at a high point of the periphery of a network-free area, the second support is arranged in a residential area of the network-free area, a 4G-to-wired routing module and a platy wireless network bridge transmitting end are arranged on the first support, a platy wireless network bridge receiving end is arranged on the second support, the 4G-to-wired routing module and the wireless network bridge transmitting end are connected through a network cable, the wireless network bridge transmitting end is opposite to the wireless network bridge receiving end, and the wireless network bridge receiving end is connected with a router used for providing network signals for the residential area of the network-free area; the wireless bridge power supply device is characterized in that a first power supply module is arranged on the first support and used for supplying power to the 4G-to-wired routing module and the wireless bridge transmitting end, a second power supply module is arranged on the second support and used for supplying power to the wireless bridge receiving end.

Furthermore, the top ends of the first support and the second support are respectively provided with a bridge mounting rack, the bridge mounting rack comprises a vertically arranged support rod, the support rod is of a cylindrical structure, a first sleeve is sleeved on the support rod and can rotate on the support rod, the side wall of the first sleeve is provided with a first screw hole, a first bolt for fixing the position of the first sleeve is installed in the first screw hole, the side wall of the first sleeve is fixedly provided with a first connecting rod, one end of the first connecting rod, far away from the first sleeve, is fixedly provided with a second connecting rod which is vertical to the first connecting rod and is horizontally arranged, a second sleeve is sleeved on the second connecting rod and can rotate on the second connecting rod, the side wall of the second sleeve is provided with a second screw hole, and a second bolt for fixing the position of the second sleeve is installed in the second screw hole, the side wall of the second sleeve is fixedly provided with a mounting plate in a flat plate structure, the transmitting end of the wireless network bridge is fixed on the mounting plate of the first support, the signal transmitting end of the wireless network bridge is parallel to the mounting plate where the signal transmitting end of the wireless network bridge is located, the receiving end of the wireless network bridge is fixed on the mounting plate of the second support, and the receiving end of the wireless network bridge is parallel to the mounting plate where the signal transmitting end of the wireless network bridge is located.

Further, a laser emitter for alignment is arranged on the mounting plate of the first support.

The beneficial effects of the utility model reside in that: converting 4G or 5G signals sent by an operator communication base station into limited network signals, and transmitting the limited network signals to a remote area where the 4G signals are difficult to reach through wireless bridge equipment; the laser transmitting device is arranged to enable the wireless network bridge transmitting end and the wireless network bridge receiving end to be in a state of being opposite after being installed, and the best signal transmission effect is achieved; simple structure, whole device low cost, the angular adjustment and the routine maintenance of being convenient for are fit for popularizing and applying in 4G signal and the area that the broadband is difficult to cover such as remote mountain area, pastoral area, mining area.

Drawings

Fig. 1 is a schematic view of the structural arrangement of the present invention;

fig. 2 is a schematic structural view of a first bracket of the present invention;

fig. 3 is a schematic structural view of a second bracket of the present invention;

FIG. 4 is an enlarged view of a portion A of FIG. 2;

in the figure, 1-a first support, 2-a second support, 3-4G-to-wire routing module, 4-wireless bridge transmitting end, 5-wireless bridge receiving end, 6-a first power supply module, 7-a second power supply module, 8-bridge mounting rack, 801-supporting rod, 802-a first sleeve, 803-a first screw hole, 804-a first bolt, 805-a first connecting rod, 806-a second connecting rod, 807-a second sleeve, 808-a second screw hole, 809-a second bolt, 810-mounting plate and 9-laser emitter.

Detailed Description

As shown in fig. 1-4, a remote non-network area network relay coverage system includes a first support 1 disposed at a high point of a non-network mountain area and a second support 2 disposed at a residential area of the non-network area, the first support 1 is provided with a 4G-to-wired routing module 3 and a plate-shaped wireless bridge transmitting terminal 4, wherein the 4G-to-wired routing module 3 specifically adopts a 4G-to-RJ 45 gateway transmission terminal or an outdoor 4G router, and the wireless bridge device specifically adopts a le-guan-G GE450 wireless bridge or other similar products, which can receive a 4G signal transmitted by a nearby operator communication base station, convert the signal into a wired network signal, and transmit the signal to the wireless bridge transmitting terminal 4 through a network cable. The utility model discloses used wireless bridge equipment effective transmission distance can reach about 10km at utmost, has overcome a great deal of problem because of the too far production of distance. The first support 1 is arranged at a height control point on the periphery of a remote area, a mountain head or a building with 4G signals can be selected as a support when the height control point is selected, and the requirement of equipment erection can be met when the strength of a test signal source is greater than-70 dBm; the 4G signal strength of mobile, communication and telecommunication can be tested simultaneously, and the optimal scheme is selected. The second bracket 2 is provided with a platy wireless network bridge receiving end 5, the 4G is converted into a wired routing module 3 and is in signal connection with a wireless network bridge transmitting end 4, the wireless network bridge transmitting end 4 is opposite to the wireless network bridge receiving end 5 in order to ensure that signal transmission achieves the best effect, and the wireless network bridge receiving end 5 is connected with a router for providing network signals for a residential area;

the first power module 6 is arranged on the first support 1, the first power module 6 is used for supplying power to the 4G-to-wired routing module 3 and the wireless network bridge transmitting terminal 4, the second power module 7 is arranged on the second support 2, and the second power module 7 is used for supplying power to the wireless network bridge receiving terminal 5.

In order to facilitate the adjustment of the wireless bridge transmitting end 4 and the wireless bridge receiving end 5, the top ends of the first bracket 1 and the second bracket 2 are respectively provided with a bridge mounting rack 8, the bridge mounting rack 8 comprises a supporting rod 801 which is vertically arranged, the supporting rod 801 is in a cylindrical structure, the supporting rod 801 is sleeved with a first sleeve 802, the first sleeve 802 can rotate on the supporting rod 801, the side wall of the first sleeve 802 is provided with a first screw hole 803, a first bolt 804 for fixing the position of the first sleeve 802 is installed in the first screw hole 803, the side wall of the first sleeve 802 is fixed with a first connecting rod 805, one end of the first connecting rod 805 far away from the first sleeve 802 is fixed with a second connecting rod 806 which is vertical to and horizontally arranged with the first connecting rod 805, the second connecting rod 806 is sleeved with a second sleeve 807, the second sleeve 807 can rotate on the second connecting rod 806, the side wall of the second sleeve 807 is provided with a second screw hole 808, a second bolt 809 for fixing the position of the second sleeve 807 is installed in the second screw hole 808, a mounting plate 810 in a flat plate structure is fixed on the side wall of the second sleeve 807, the wireless bridge transmitting end 4 is fixed on the mounting plate 810 of the first bracket 1, the wireless bridge transmitting end 4 is parallel to the mounting plate 810 where the wireless bridge transmitting end is located, the wireless bridge receiving end 5 is fixed on the mounting plate 810 of the second bracket 2, the wireless bridge receiving end 5 is parallel to the mounting plate 810 where the wireless bridge receiving end is located, a laser emitter 9 for alignment is further arranged on the mounting plate 810 of the first bracket 1, and laser emitted by the laser emitter 9 can be used for alignment of the wireless bridge transmitting end 4 and the wireless bridge receiving end 5 during installation.

When the utility model is used, firstly, the first bracket 1 is erected at the elevation point of the non-network area, so that the 4G-to-wired routing module 3 arranged on the first bracket 1 can receive the 4G network signal sent by the communication base station of the nearby operator, and the 4G-to-wired routing module 3 converts the signal into a wired network signal to be transmitted to the wireless bridge transmitting terminal 4 for signal transmission, then the second bracket 2 is arranged at the user concentration position with lower terrain and no 4G signal coverage, during the installation, attention needs to be paid to avoiding shielding objects between the first bracket 1 and the second bracket 2, then the adjusting bridge mounting rack 8 on the first bracket 1 and the second bracket 2 is adjusted, specifically, the orientation of the wireless bridge transmitting terminal 4 and the bridge wireless network receiving terminal 5 is adjusted by rotating the mounting plate 810 fixed on the first connecting rod 805 and the second sleeve 807, in order to adjust the laser transmitter 9 on the mounting plate 810 of the first support 1 conveniently, the mounting plate 810 on the second support 2 emits laser signals, so that an operator can quickly determine the relative position of the wireless network bridge transmitting end 4 and the wireless network bridge receiving end 5, when the general direction is aligned, the operator can finely adjust the wireless network bridge transmitting end 4 and the wireless network bridge receiving end 5 to ensure that the signal transmission reaches the optimal effect, after the adjustment is finished, the first bolt 804 and the second bolt 809 are screwed down to fix the wireless network bridge transmitting end 4 and the wireless network bridge receiving end 5, after the installation is finished, the 4G signals can be converted into wired signals, and the wired signals are transmitted to an area without network coverage through the wireless network bridge, and the broadband internet access of a terminal is realized.

Claims (3)

1. A remote network-free area network relay coverage system is characterized by comprising a first support and a second support, wherein the first support is arranged at a height control point of the periphery of a network-free area, the second support is arranged in a residential area of the network-free area, a 4G-to-wired routing module and a platy wireless bridge transmitting end are arranged on the first support, a platy wireless bridge receiving end is arranged on the second support, the 4G-to-wired routing module and the wireless bridge transmitting end are connected through a network cable, the wireless bridge transmitting end is opposite to the wireless bridge receiving end, and the wireless bridge receiving end is connected with a router used for providing network signals for the residential area of the network-free area; the wireless bridge power supply device is characterized in that a first power supply module is arranged on the first support and used for supplying power to the 4G-to-wired routing module and the wireless bridge transmitting end, a second power supply module is arranged on the second support and used for supplying power to the wireless bridge receiving end.

2. The network relay coverage system for remote non-network areas of claim 1, wherein the top ends of the first and second supports are respectively provided with a bridge mounting rack, the bridge mounting rack comprises a vertically arranged support rod, the support rod is of a cylindrical structure, a first sleeve is sleeved on the support rod and can rotate on the support rod, a first screw hole is formed in a side wall of the first sleeve, a first bolt for fixing the position of the first sleeve is installed in the first screw hole, a first connecting rod is fixed on the side wall of the first sleeve, a second connecting rod which is perpendicular to the first connecting rod and horizontally arranged is fixed at one end of the first connecting rod far away from the first sleeve, a second sleeve is sleeved on the second connecting rod and can rotate on the second connecting rod, and a second screw hole is formed in a side wall of the second sleeve, the wireless bridge signal transmitting end is fixed on the mounting plate of the first support, the wireless bridge receiving end is fixed on the mounting plate of the second support, and the wireless bridge receiving end is parallel to the mounting plate of the second support.

3. The remote network-less area network relay coverage system of claim 1, wherein a laser transmitter for alignment is further provided on the mounting plate of the first bracket.

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