CN212812055U - Home-use basic station suitable for signal blind area and remote mountain area - Google Patents

Abstract

The utility model discloses a home base station suitable for signal blind areas and remote mountain areas, which comprises a sending terminal base station and a receiving terminal base station which are matched for use; the transmitting terminal base station and the receiving terminal base station both comprise supporting rods, receiving and transmitting devices, storage batteries, a power supply controller, a router, a network bridge, a power supply lightning protection device indicator light and a switch, and the receiving terminal base station further comprises a TD-LTE special signal transmitting module. The utility model discloses a receiving terminal basic station and the sending terminal basic station of mutually supporting realize network signal and communication signal in the cover of remote mountain area, very big has made things convenient for the resident's of mountain area life. The home base station is convenient to install and transport, and a user can install and set the home base station by himself, so that the flexibility is strong; cloud management can be realized, and remote management and maintenance can be realized; the system has the GPS positioning function, and can be quickly found out when stolen; in order to avoid the base station from being damaged by lightning stroke, a lightning rod, physical isolation and a power supply lightning protector are adopted for protection in various modes; in addition, the home base station is low in construction cost.

Description

Home-use basic station suitable for signal blind area and remote mountain area

Technical Field

The utility model relates to a basic station technical field especially relates to a home base station suitable for signal blind area and remote mountain area.

Background

In some plateau areas or nomadic areas, signals exist at high places but do not exist at low places or are poor in signals, so that the network cannot be used, the call cannot be made, and great inconvenience is brought to life of people. People think of the inconvenience of life is solved by using a signal conversion base station to transmit the signal in a strong signal area to a poor signal area through conversion. However, the existing base station has the defects of complex installation, difficult control, inconvenient transportation, high cost and the like.

SUMMERY OF THE UTILITY MODEL

The utility model provides a home base station suitable for signal blind area and remote mountain area to it is poor to nomadic people family and remote mountain area home network signal in the prior art to solve, and communication signal is poor, and current basic station installation is loaded down with trivial details, not easy control, inconvenient transportation, with high costs scheduling problem.

The utility model adopts the technical proposal that: a home base station suitable for signal blind areas and remote mountain areas comprises a sending end base station and a receiving end base station which are matched;

the transmitting end base station comprises a first supporting rod, a first receiving and transmitting device and a first power supply device, wherein the first receiving and transmitting device and the first power supply device are installed on the first supporting rod, the first receiving and transmitting device comprises a first power supply controller, a first storage battery, a first router and a first network bridge, and the first storage battery, the first router and the first network bridge are electrically connected with the first power supply controller respectively;

the receiving end base station comprises a second supporting rod and a second receiving and sending device arranged on the second supporting rod, the second receiving and sending device comprises a second power supply controller, and a second storage battery, a second router, a second network bridge and a TD-LTE special signal transmitting module which are electrically connected with the second power supply controller respectively, the second router is connected with the second network bridge through a network cable, and the TD-LTE special signal transmitting module is connected with the second router through a network cable.

Preferably, the transmitting-end base station further includes a directional antenna or an omni-directional antenna mounted on top of the first support rod.

Preferably, the first power supply device comprises a first solar panel and/or a first wind driven generator;

and a second power supply device is also arranged on the second supporting rod and comprises a second solar cell panel and/or a second wind driven generator.

Preferably, the first receiving and transmitting device further comprises a first power lightning protector therein, and the first power lightning protector is electrically connected between the first power supply device and the first power controller;

the second receiving and sending device also comprises a second power lightning protector, and the second power lightning protector is electrically connected between the second power supply device and the second power controller.

Preferably, a lightning rod is mounted at the top end of the first support rod and/or the second support rod.

Preferably, the first receiving and sending device further comprises a first indicator light and a first switch, and the first indicator light and the first switch are respectively electrically connected with the first power supply controller;

the second receiving and sending device also comprises a second indicator light and a second switch, and the second indicator light and the second switch are respectively electrically connected with the second power supply controller.

Preferably, the first receiving and sending device further comprises a first cloud power control module, and the first cloud power control module is electrically connected with the first power controller;

the second receiving and sending device further comprises a second cloud power supply control module, and the second cloud power supply control module is electrically connected with the second power supply controller.

Preferably, cloud end modules are arranged in the first router, the first network bridge, the second router and the second network bridge.

Preferably, the first battery and the second battery are both provided with a GPS positioning module inside.

Preferably, the first receiving and sending device is connected with the first support rod through a first support, screws for fixing the first receiving and sending device and the first support are bakelite screws, and then nylon trapezoidal pads are matched;

the second receiving and sending device is connected with the second supporting rod through a second support, screws for fixing the second receiving and sending device and the second support are bakelite screws, and nylon trapezoidal pads are matched.

The utility model has the advantages that: the utility model discloses a receiving terminal basic station and the sending terminal basic station of mutually supporting realize network signal and communication signal in the cover of remote mountain area, very big has made things convenient for the resident's of mountain area life. The utility model is convenient to install and transport, the user can realize self installation and setting, the flexibility is strong, and the device is suitable for nomadic families; cloud management can be realized, and remote management and maintenance can be realized; the system has the GPS positioning function, and can be quickly found out when stolen; in order to avoid the base station from being damaged by lightning stroke, a lightning rod, physical isolation and a power supply lightning protector are adopted for protection in various modes; the construction cost of the traditional base station is at least more than twenty thousand, and the utility model discloses a construction cost of base station is within ten thousand, has practiced thrift construction cost greatly.

Drawings

Fig. 1 is a schematic structural diagram of a transmitting end base station disclosed by the present invention;

fig. 2 is a schematic structural diagram of a first receiving and transmitting device disclosed by the present invention;

fig. 3 is a schematic structural diagram of a receiving end base station disclosed by the present invention;

fig. 4 is a schematic structural diagram of a second receiving and transmitting device disclosed in the present invention.

Reference numerals: 11. a first support bar; 12. a first solar cell panel; 13. a first wind power generator; 14. a first directional antenna; 15. a first receiving and transmitting device; 16. a first lightning rod; 21. a second support bar; 22. a second solar panel; 23. a second wind power generator; 24. a second directional antenna; 25. a second receiving and transmitting device; 26. and a second lightning rod.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings, but the embodiments of the present invention are not limited thereto.

Example 1:

a home base station suitable for signal blind areas and remote mountain areas comprises a sending end base station and a receiving end base station, wherein the sending end base station and the receiving end base station are matched together for use when in use, and the sending end base station is arranged in an area with strong outdoor signals, such as a high mountain, and is used for sending signals; the receiving end base station is installed around the family or in the family to receive signals.

Referring to fig. 1, the transmitting-end base station includes a first supporting rod 11, and a first receiving and transmitting device 15, a first power supply device, and a first directional antenna 14 mounted on the first supporting rod 11, and may further include a first lightning rod 16 in order to avoid damage to the transmitting-end base station caused by a lightning strike.

Wherein the first directional antenna 14 is installed on top of the first support rod 11 for receiving surrounding signals (including mobile, telecommunication, and internet signals), and the first directional antenna 14 transmits the received signals to the first receiving and transmitting device 15. A first lightning rod 16 is located at the top end of the first support rod 11. The first power supply device comprises a first solar cell panel 12 and a first wind driven generator 13, and is used for supplying power to the first receiving and sending device 15.

Referring to fig. 2, a first storage battery, a first power controller, a first cloud power control module, a first router, a first network bridge, a first power lightning arrester, a first indicator lamp and a first switch are arranged inside the first receiving and sending device 15, the first power lightning arrester is installed between the first power supply device and the first power controller, and the first power controller is electrically connected with the first storage battery, the first cloud power control module, the first router, the first network bridge, the first indicator lamp and the first switch respectively. The first router and the first network bridge are connected through a network cable, and cloud end modules are respectively arranged in the first router and the first network bridge and are used for carrying out cloud end control on the first router and the first network bridge. Through setting up first router, first bridge and first high in the clouds power control module, can realize sending end base station high in the clouds management, can remote management and maintenance. The built-in GPS positioning module of first battery compares in solitary GPS positioning module, places the GPS positioning module in can playing better theftproof effect in first battery.

First receiving and sending device 15 and first bracing piece 11 between through first leg joint, for further reinforcing lightning protection effect, the screw of fixed first receiving and sending device 15 and first support is the bakelite screw, and nylon ladder-shaped pad of deuterogamying to it is lightning-arrest to make first receiving and sending device 15 realize the lightning protection through the mode of physical isolation.

It is noted that the first directional antenna 14 may be replaced with an omni-directional antenna.

The power supply method is exemplified as follows: in windless sunny days, the first solar cell panel 12 converts solar energy into electric energy and inputs the electric energy into the first power supply controller, the first power supply controller supplies power to the first router, the first network bridge, the first storage battery, the first cloud power supply control module and the first indicator lamp after balancing voltage and current, and the first storage battery supplies power to the first router, the first network bridge, the first storage battery, the first cloud power supply control module and the first indicator lamp through the first power supply controller at night.

Receiving end base station referring to fig. 3, the receiving end base station includes a second support rod 21, and a second receiving and transmitting device 25, a second power supply device, and a second directional antenna 24 mounted on the second support rod 21, although the receiving end base station is mounted near home, there is still a risk of being struck by lightning, and a second lightning rod 26 may be further included to protect the receiving end base station.

Wherein the second directional antenna 24 is installed on top of the second supporting rod 21 for receiving the signal from the transmitting end base station, and the second directional antenna 24 transmits the received signal to the second receiving and transmitting device 25. A second lightning rod 26 is located at the top end of the second support rod 21. The second power supply device comprises a second solar cell panel 22 and a second wind driven generator 23, and is used for supplying power to the second receiving and sending device 25. It will be appreciated that since the receiving base station is installed near the home, the power supply may also be from the home power line rather than relying solely on the power supply device to supply power. In addition, since the signal from the transmitting base station is strong, the receiving base station can omit the second directional antenna 24. It is of course also possible to replace the second directional antenna 24 with an omni-directional antenna.

Referring to fig. 4, a second storage battery, a second power controller, a second cloud power control module, a second router, a second network bridge, a second power lightning arrester, a TD-LTE dedicated signal transmitting module, a second indicator lamp and a second switch are arranged inside the second receiving and sending device 25, the second power lightning arrester is installed between the second power supply device and the second power controller, and the second power controller is electrically connected with the second storage battery, the second cloud power control module, the second router, the second network bridge, the TD-LTE dedicated signal transmitting module, the second indicator lamp and the second switch respectively. The TD-LTE special signal transmitting module is connected with the second router through a network cable. The second router and the second network bridge are connected through a network cable, and cloud end modules are respectively arranged in the second router and the second network bridge and used for carrying out cloud end control on the second router and the second network bridge. Through setting up second router, second network bridge and second high in the clouds power control module, can realize receiving terminal base station high in the clouds management, can remote management and maintenance. The GPS positioning module is arranged in the second storage battery, and compared with an independent GPS positioning module, the GPS positioning module is arranged in the second storage battery to achieve a better anti-theft effect.

Through the second leg joint between second receiving and sending device 25 and the second bracing piece 21, for further reinforcing lightning protection effect, the screw of fixed second receiving and sending device 25 and second support is the bakelite screw, and nylon ladder-shaped pad of deuterogamying to it is lightning-arrest to make second receiving and sending device 25 realize the lightning protection through the mode of physical isolation.

The network signal is covered by the following way: the first router and the second router can adopt 4G routers or 5G routers, the first router converts received signals into network signals, the first bridge is connected with the second bridge through the network signals, then the second router sends WiFi signals, and therefore a user can receive 2.4G or 5GWIFi signals at home through a WiFi connection mode.

The communication signal is covered by: because the TD-LTE special signal transmitting module can transmit through the network VPN signal, when the network signal sent by the sending end base station passes through the TD-LTE special signal transmitting module, the coverage of the 4G-VoLTE communication signal is realized.

It is worth noting that the application range of the home base station aims at all remote mountain areas and signal blind areas, and under the condition that the living distance is short, a transmitting end base station on a mountain can independently operate to realize blind area signal coverage; when the blind area needing to be covered is far away from the sending end base station, the sending end base station and the receiving end base station are required to be matched for use, the home base station can realize the transmission and the coverage of the super-long distance of more than 500 kilometers farthest, and the home base station has great practicability for remote mountain areas of all countries in the world.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (10)

1. A home base station suitable for signal blind areas and remote mountain areas is characterized by comprising a sending end base station and a receiving end base station which are matched;

the transmitting end base station comprises a first supporting rod, a first receiving and transmitting device and a first power supply device, wherein the first receiving and transmitting device and the first power supply device are installed on the first supporting rod, the first receiving and transmitting device comprises a first power supply controller, a first storage battery, a first router and a first network bridge, and the first storage battery, the first router and the first network bridge are electrically connected with the first power supply controller respectively;

the receiving end base station comprises a second supporting rod and a second receiving and sending device arranged on the second supporting rod, the second receiving and sending device comprises a second power supply controller, and a second storage battery, a second router, a second network bridge and a TD-LTE special signal transmitting module which are electrically connected with the second power supply controller respectively, the second router is connected with the second network bridge through a network cable, and the TD-LTE special signal transmitting module is connected with the second router through a network cable.

2. The femtocell base station of claim 1, wherein the transmitting end base station further comprises a directional antenna or an omnidirectional antenna installed on top of the first supporting rod.

3. The home base station as claimed in claim 1, wherein the first power supply means comprises a first solar panel and/or a first wind power generator;

and a second power supply device is also arranged on the second supporting rod and comprises a second solar cell panel and/or a second wind driven generator.

4. The home base station as claimed in claim 3, further comprising a first power lightning protector in the first receiving and transmitting device, wherein the first power lightning protector is electrically connected between the first power supply device and the first power controller;

the second receiving and sending device also comprises a second power lightning protector, and the second power lightning protector is electrically connected between the second power supply device and the second power controller.

5. The home base station as claimed in claim 1, wherein a lightning rod is installed at the top end of the first support rod and/or the second support rod.

6. The home base station as claimed in claim 1, further comprising a first indicator light and a first switch, wherein the first receiving and transmitting device further comprises a first power controller electrically connected to the first indicator light and the first switch, respectively;

the second receiving and sending device also comprises a second indicator light and a second switch, and the second indicator light and the second switch are respectively electrically connected with the second power supply controller.

7. The home base station suitable for signal blind areas and remote mountainous areas according to claim 1, further comprising a first cloud power control module in the first receiving and sending device, wherein the first cloud power control module is electrically connected to the first power controller;

the second receiving and sending device further comprises a second cloud power supply control module, and the second cloud power supply control module is electrically connected with the second power supply controller.

8. The femtocell base station suitable for use in signal shadow areas and remote mountainous areas of claim 1, wherein the first router, the first bridge, the second router and the second bridge are all built-in with cloud modules.

9. The home base station as claimed in claim 1, wherein the first battery and the second battery each have a GPS positioning module.

10. The home base station as claimed in claim 1, wherein the first transceiver device is connected to the first support rod through a first bracket, and screws for fixing the first transceiver device and the first bracket are bakelite screws and further cooperate with nylon ladder pads;

the second receiving and sending device is connected with the second supporting rod through a second support, screws for fixing the second receiving and sending device and the second support are bakelite screws, and nylon trapezoidal pads are matched.

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