KR19990080201A - Installation method of wireless communication base station using apparatus - Google Patents

Abstract

The present invention relates to a method of installing a wireless communication base station, characterized in that the repeater of the wireless communication base station to float in the air by fixing the repeater of the wireless communication base station to the mechanism floating from the ground due to buoyancy by the gas contained therein. . The installation method of the wireless communication base station according to the present invention has an advantage of easy installation, low installation cost, and low installation altitude, compared to the conventional method using a steel tower. It is very efficient because the service area can be expanded by installing the repeater of the wireless communication base station at high cost at low cost. Since the service area of a single wireless communication base station is widened, not only can the number of base stations be reduced, but also the quality of calls can be guaranteed, and the interference of radio waves due to ground obstacles is reduced.

Description

Installation method of wireless communication base station using apparatus

The present invention relates to a method for installing a wireless communication base station using a device, and in particular, it is characterized in that the repeater of the wireless communication base station is fixed to the lower end of the device to float in the air by the buoyancy of the device.

The wireless communication base station must be installed at a high position from the ground because of its characteristics, and thus, a steel tower is conventionally used for this purpose. The installation method of a conventional wireless communication base station using a pylon to install a repeater takes a lot of installation cost of the repeater, in particular, the higher the location where the repeater is installed, the installation cost increases exponentially.

Due to the problem that the installation cost increases as the position of the repeater is installed, the repeater installation position of the existing wireless communication base station is limited to 30m to 50m from the ground.

In order for a single wireless communication base station to have a wide service area, the higher the repeater installation position of the wireless communication base station is, the more advantageous it is difficult to install a wireless communication base station having a wide service area at a low cost in the conventional steel tower installation method.

The present invention is to solve the problems of the prior art as described above, the present invention is to propose a method of installing a wireless communication base station is less expensive than the conventional pylon installation method.

The present invention also proposes a method of installing a wireless communication base station without limiting the altitude at which the repeater of the wireless communication base station is installed to have a wide service area.

1 is a view for explaining a method for installing a wireless communication base station according to the present invention;

In order to achieve the object as described above, the installation method of the wireless communication base station according to the present invention, by fixing the repeater of the wireless communication base station to the mechanism floating from the ground by buoyancy by the gas contained therein It is characterized by floating in the air.

In the method for installing a wireless communication base station according to the present invention, the size of the apparatus is determined according to the buoyancy of the gas to be contained, the weight of the repeater to be fixed, and the installation altitude of the repeater.

In the method for installing a wireless communication base station according to the present invention, the pressure inside the apparatus is automatically adjusted by air to maintain a constant volume of the apparatus even with temperature changes, atmospheric pressure changes, and altitude changes. It is characterized in that the pressure regulating air bag is installed to maintain the equilibrium.

As the gas contained in the apparatus, helium gas is preferable.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of the present invention will be described in detail.

1 is a view for explaining a method for installing a wireless communication base station according to an embodiment of the present invention.

As shown in Fig. 1, in the installation method of the radio communication base station according to the present invention, the repeater 20 of the radio communication base station is fixed to the lower end of the mechanism 10 floating from the ground surface by buoyancy due to the gas contained therein. That is, the repeater 20 of the radio communication base station floats in the air by the mechanism 10 floating from the ground surface.

At this time, the installation altitude of the repeater 20 can be increased by the altitude of the mechanism 10 floating from the ground surface. In the case shown in Figure 1, the installation height of the repeater 20 is set to about 200m. Since the installation height of the repeater 20 is not limited, for example, it may be easily installed even at a height of 1000 m. However, in this embodiment, the height of the repeater 20 may be set to about 200 m.

In the conventional pylon installation method, the installation height of the repeater is considerably improved in the present invention, compared to the installation height of the repeater is limited to 30m to 50m due to the cost of installing the tower. As the height of the repeater is improved, the service area of a single wireless communication base station is widened.

Helium gas is preferable as a gas contained in the mechanism 10 so that the mechanism 10 can have buoyancy. Helium gas is preferable as a gas contained in the apparatus 10 because it is stable as an inert gas.

The inside of the device 10 includes a pressure regulating air bag (also known as a 'footonet') in which pressure is automatically adjusted by air.

The size of the instrument 10 is determined according to the buoyancy of helium gas contained therein and the weight of the repeater 20 to be fixed to the lower end of the instrument 10. In other words, the buoyancy of helium gas contained within the instrument 10 should be able to support the weight of the repeater 20 being fixed to the lower end of the instrument 10.

Since the maximum weight of the repeater 20 is generally 200 kg, considering the wind speed up to 25 m per second, and using helium gas, as shown in FIG. 1, in order to install the repeater 20 at a height of about 200 m, Appropriate diameter of the instrument 10 is about 10m to 15m.

Suitable means for connecting the ground surface and the appliance 10 is a mooring rope in which a Kevlar rope and a protective steel wire are twisted.

For example, when the weight of the repeater is set to 200 kg and the repeater installation height is set to 200 m, and the wind speed is taken up to 25 m per second, the diameter of the instrument is 12 m (the volume of the instrument is 904 m 3 and the surface area of the instrument is 452). M 2) and the volume of the air bag in the apparatus is set to 135 m 3, the buoyancy due to helium gas is 922.6 kg, so the buoyancy due to helium gas can sufficiently support the weight of the repeater. In this case, the diameter of the mooring rope (Kevlar rope) was 12 mm (cutting strength 5880 kg) for safety.

According to the experiment, the apparatus having a diameter of 12 m as described above has a volume change rate of 11% when the temperature change range is 30 ° C, a volume change rate of 2.5% when the change range of air pressure is 30mb, and a high change. Is 241m, the volume change rate is 2.2%. Considering all three factors, the optimal maximum rate of change is 15.7%. When the volume of the instrument is changed by a change in temperature, a change in barometric pressure, or wind, the pressure in the air bag in the instrument is adjusted to maintain the volume of the instrument so that the instrument is always in equilibrium.

In addition, since the apparatus to which the repeater is fixed floats in the air at an altitude of about 200 m, it must include a device for preventing lightning, and a daytime and nighttime aviation light must be installed for the safe operation of other flying objects. Such day and night flight lights are preferably equipped with an emergency self-power source such as a lithium ion battery in case of a power outage to automatically flash as an optical sensor.

It may also be considered to delimit a range of ground on which the apparatus is installed to prevent safety accidents.

Therefore, the installation method of the wireless communication base station using the apparatus according to the present invention can be usefully used in mountainous areas between cities rather than in high-rise buildings such as large cities and dense populations. It is desirable to use a combination of the conventional method and the method according to the present invention according to the location where the wireless communication base station is to be installed.

As described above, the installation method of the wireless communication base station according to the present invention has an advantage of easy installation, low installation cost, and low installation height restriction, compared to the conventional method using a steel tower. It is very efficient because the service area can be expanded by installing the repeater of the wireless communication base station at high cost at low cost. Since the service area of a single wireless communication base station is widened, not only can the number of base stations be reduced, but also the quality of calls can be guaranteed, and the interference of radio waves due to ground obstacles is reduced.

Claims (4)

In the installation method of a wireless communication base station, A method of installing a wireless communication base station, wherein the repeater of the wireless communication base station is floated in the air by fixing the repeater of the wireless communication base station to a mechanism floating from the ground due to buoyancy by a gas contained therein. The method of claim 1, wherein the size of the device is determined according to the buoyancy of the gas to be contained, the weight of the repeater to be fixed, and the installation altitude of the repeater. The pressure control air according to claim 1, wherein the pressure is automatically controlled by air in the inside of the device to maintain a constant volume of the device even when temperature changes, air pressure changes, and altitude changes are maintained. The installation method of a wireless communication base station, characterized in that the pocket is installed. The method of claim 1, wherein the gas contained in the apparatus is helium gas.