FIELD ON THE INVENTION
The present invention relates to a self-powered communication tower with multiple transmission system. More specifically, the invention relates to a communication tower which comprises of a self-power generating system comprising of solar power panels and wind turbines; and of at least one communication system comprising of at least three transmission devices for transmission of at least three types of wireless communications, and a base transceiver station.

BACKGROUND OF THE INVENTION
The wireless communication systems rely on transmission towers for point-to-point communication. Such wireless communication systems include microwave, radio, infrared, mobile communications and others.
A major drawback in the current communication systems is that a communication tower usually houses a single kind of transmitter which is used for some specific kinds of transmissions such as a base transceiver station facilitates wireless communication between user equipment (mobile phones, wireless equipped computers etc.) and a network, and a microwave transmission system facilitates telecommunication such as television, radio and others. A single kind of transmission tower for different kinds of communication systems is not available mainly because of the interference problems between different types of transmissions.
Another drawback of these communication towers is that they currently use diesel generators, batteries, and a variety of power management equipments to address the power supply demand for operation, which is economically challenging. Diesel generators and batteries also emit high levels of CO2 which pollutes the environment.
The rising operating costs, the logistical issues, and the environmental cost of using diesel, all together are pushing the communication industry to look for alternative solutions.
The present invention takes in to account the major drawbacks of the communication system and provides a self-powered communication tower with multiple transmission systems.

OBJECT OF THE INVENTION
The main object of the invention is to provide a single communication tower with multiple transmission systems without interference.
Yet another object of the invention is to provide a self-powered communication tower which relies on non-fuel renewable sources of energy such as solar power panels and wind turbines.
Yet another object of the invention is to provide a communication system which is economical, and environmentally safe.
Yet another object of the invention is to provide a self powered efficient communication system at least one power generating system comprising of a plurality solar panel and a plurality wind mills.
Yet another object of the invention is to provide at least one communication system comprising of at least one radio transmitter, at least one network transmitter and at least one broadcast transmitter, and at least one base transceiver station which acts a receiver station.
Yet another object of the invention is to provide at least one construction tower comprising of a pillar supporting the power generating system and the communication system.
Yet another object of the invention is to provide the construction tower has an inflatable balloon shaped structure, filled with inert gas, installed on the pillar filled.
Yet another object of the invention is to provide the inflatable balloon and the construction tower is covered with solar panels for generation of electricity.
Yet another object of the invention is to provide the bottom of the balloon has a storage device for storing the electric power generated from solar power panels on the balloon.
Yet another object of the invention is to provide the construction tower is installed with at least three transmission devices with at least three different transmitters capable of transmission of at least three different types of wireless communications.
Yet another object of the invention is to provide the windmills are placed around the pillar in a linear fashion.
Yet another object of the invention is to provide the construction tower has at least one gas inlet and at least one gas outlet pipe for pumping and discharging helium gas in and out of the balloon atop the pillar.

SUMMARY OF THE INVENTION
The present invention provides a self-powered communication tower with multiple transmission system.
In the main embodiment of the current invention, the invention provides a communication system comprising of at least one power generating system comprising of a plurality solar panels and a plurality wind turbines; at least one communication system comprising of at least three transmission devices for transmission of at least three types of wireless communications, and a base transceiver station; and a construction tower with at least one power generating system and one communication system.
In another embodiment of the current the invention, the invention provides a construction tower which comprises of at least one inflatable balloon-shaped structure, filled with an inert gas, and a pillar atop which the inflatable balloon is installed.
In another embodiment of the current the invention, the invention provides a construction tower with a self-powered generator, wherein, the tower is operated by electricity produced from non-fuel renewable sources of energy such as solar and wind energy, wherein a plurality of solar power panels are placed on the inflatable balloon for generating electricity from solar energy, and a plurality of vertical wind turbines are mounted around the pillar for generating electricity from wind power.
In another embodiment of the current the invention, the invention provides a communication system which comprises of at least one transmission device and one base transceiver station, wherein each transmission device comprises of at least one radio transmitter, at least one network transmitter and at least one broadcast transmitter without any interference.
The use of renewable sources of energy and use of a single tower for at least three kinds of wireless communication systems makes the current invention highly economical, and environmentally safe.

BRIEF DESCRIPTION OF THE DRAWING

A complete understanding of the system and method of the present invention may be obtained by reference to the following drawings:

Figure 1 elucidates a fully assembled self-powered communication tower comprising of an inflatable balloon at the top and a pillar mounted around with a plurality of wind turbines, a plurality of transmission devices, and a base transceiver station at the bottom;
Figure 2 elucidates a wind turbine with a rotor and aerodynamic blades;
Figure 3 schematically illustrates the components of the wind turbine without the rotor;
Figure 4 illustrates an assembled view of a communication device with at least three transmitters; and
Figure 5 is a view of the inflated balloon covered with solar panels.

DETAILED DESCRIPTION OF THE INVENTION
The present invention will now be described more fully hereinafter. This invention may, however, be embodied in many different forms and should not be construed as being limited to the embodiment set forth herein. Rather, the embodiment is provided so that this disclosure will be thorough, and will fully convey the scope of the invention to those skilled in the art.
The present invention is best described as a self-powered communication tower with multiple transmission system.
In the main embodiment of the current invention, a self-powered wireless communication tower 100 which comprises of at least one power generating system and at least one communication system, wherein the power generating system comprises of a plurality solar panels 501 and a plurality wind turbines 104, and the communication system 103 comprising of at least three transmitters 401 at least one radio transmitter, at least one network transmitter and at least one broadcast transmitter; and at least one base transceiver station 105 which acts a receiver station.
In another embodiment of the current the invention, the invention provides a construction tower 100 which comprises of at least one inflatable balloon-shaped 101 structure, filled with an inert gas such as helium, and a pillar 102 atop which the inflatable balloon is installed , wherein the height of the tower is about 600 mtrs. The pillar 102 is provided with at least one gas inlet 206 and at least one gas outlet 207 pipe for pumping and discharging helium gas in and out of the balloon, a ladder 205 and a lift 208. A plurality of wind turbines 104 and a plurality of transmission devices 103 are mounted in a linear fashion around the pillar. The inflatable balloon 101 is supported with a flange on the bottom which is fastened using nuts and bolts to the flange 204 placed on the top of a communication device. The bottom flange 204 of the communication device is fastened with nuts and bolts to a flange 204 present on the top of a windmill and similarly the flanges of the remaining windmills and communication devices are fastened together in a linear fashion.
In yet another embodiment of the current invention, the invention provides a power generating system, wherein it maintains its electricity demand by using non-fuel renewable sources of energy and does not depend on external power supply. The non-fuel renewable sources of energy include solar energy and wind power. The inflatable balloon 101 is covered with a plurality of solar power panels 501 and the electricity generated is stored in a generator placed below the balloon. The vertical wind turbines 104 generate electricity from wind power. The vertical wind turbine 104 is an aerodynamic wind turbine with aerodynamic blades 202 which rotate in the same direction irrespective of the direction of the wind. Each of the wind turbines comprises of at least two generators 301, at least two turbines 301, at least two stators 203, at least one rotor 201, and a plurality of blades 202. The wind turbine 104 is mounted around the pillar 102 with one generator and turbine 301 on the top surrounded by a stator 203 forming the north pole of a magnet in the turbine, and another generator and turbine 301 at the bottom surrounded by another stator 203 forming the south pole of a magnet in the turbine, and an insulator 302 with bearings 303 between the two sets of generators, turbines and stators. The rotor 201 and the aerodynamic blades 202 are placed around the wind turbine between the top and bottom stators 203. Rotation of the blades 202 with the wind power results in rotation of the rotor 201 against the stator 203, consequently, producing a magnetic flux which is converted into electricity, which is stored in the generators 301 placed on the top and the bottom of each windmill.
In yet another embodiment of the invention, the invention provides a communication system, wherein the pillar is mounted with at least one transmission device 103 with at least three different transmitters 401 capable of transmission of at least three different types of wireless communications, wherein wireless communications are the radio transmitter, the network transmitter, and the broadcast transmitter; and at least one base transceiver station 105 which acts a receiver station.
Figure 1 elucidates a fully assembled self-powered communication tower 100 comprising of an inflatable balloon 101 at the top and a pillar 102, wherein the pillar is mounted with a plurality of transmission devices 103, plurality of windmills 104, and a base transceiver station 105 at the bottom.
Figure 2 elucidates a windmill 104 with a rotor 201 and aerodynamic blades 202. The rotor 201 is placed between two stators 203. The pillar 102 is provided with a gas inlet 206 and a gas outlet 207 pipe, a ladder 205, and a lift 208. Each windmill is supported with a flange 204 on the top and at the bottom for fastening to the adjacent device.
Figure 3 schematically illustrates the components of the windmill 104 without and the rotor 201. Each windmill comprises of two sets of generators and turbines 301, wherein the upper turbine forms the North pole of the magnet and the bottom turbine forms the South pole of the magnet in the turbine. The turbines 301 are separated by an insulator 302 and bearings 303, mesh 304. Insulator is placed between the pillar and bearings. Before placing the bearings, have to cover the pillar with insulator material, after that we have to place bearings on that insulator, because generating current will not pass through pillar. Turbines are only contact with bearings. Inside pillar humans will go up to repair or to take readings by the use of stairs and lift. If that current passes in that pillar it will cause harmful effects to human, so we used insulator. This tower is too height so each 10mtrs it have safety mesh to protect the workers life.

Figure 4 illustrates an assembled view of a communication device 103 with at least three transmitters 401 capable of transmission of at least three different types of wireless communications.
Figure 5 is a view of the inflated balloon 101, covered with solar panels 501, which is supported with a flange (not shown) at the bottom which is fastened to the adjacent communication device.
Many modifications and other embodiments of the invention set forth herein will come to mind to one skilled in the art to which the invention pertain having the benefit of the teachings presented in the foregoing descriptions and the associated drawings. Therefore, it is to be understood that the invention is not to be limited to the specific embodiments disclosed and that modifications and other embodiments are intended to be included within the scope of the appended claims. Although specific terms are employed herein, they are used in a generic and descriptive sense only and not for purposes of limitation.

Claims:CLAIMS
We claim:
1. A self powered efficient communication system comprising of:
at least one power generating system comprising of a plurality solar panel and a plurality wind mills;
at least one communication system comprising of at least one radio transmitter, at least one network transmitter and at least one broadcast transmitter, and at least one base transceiver station which acts a receiver station; and
at least one construction tower comprising of a pillar supporting the power generating system and the communication system;
wherein:
the construction tower has an inflatable balloon shaped structure, filled with inert gas, installed on the pillar filled;
the inflatable balloon and the construction tower is covered with solar panels for generation of electricity;
the bottom of the balloon has a storage device for storing the electric power generated from solar power panels on the balloon;
the construction tower is installed with at least three transmission devices with at least three different transmitters capable of transmission of at least three different types of wireless communications;
the windmills are placed around the pillar in a linear fashion; and
the construction tower has at least one gas inlet and at least one gas outlet pipe for pumping and discharging helium gas in and out of the balloon atop the pillar.
2. The system as claimed in claim 1, wherein the windmills have aerodynamic blades which can rotate in the same direction irrespective of the direction of the wind.
3. The system as claimed in claim 1, wherein wireless communications are the radio transmitter, the network transmitter, and the broadcast transmitter.
4. The system as claimed in claim 1, wherein the height of the tower is around 600 mtrs.
5. A method of powering communication system comprising of:
installing power generating system comprising of a plurality solar panel and a plurality wind mills on communication system comprising of at least one radio transmitter, at least one network transmitter and at least one broadcast transmitter; and at least one base transceiver station which acts a receiver station; and at least one construction tower comprising of a pillar supporting the power generating system and the communication system; wherein:
the construction tower has an inflatable balloon shaped structure, filled with inert gas, installed on the pillar;
the inflatable balloon and the construction tower is covered with solar panels for generation of electricity;
the bottom of the balloon has a storage device for storing the electric power generated from solar power panels on the balloon;
the construction tower is installed with at least three transmission devices with at least three different transmitters capable of transmission of at least three different types of wireless communications;
the windmills are placed around the pillar in a linear fashion; and
the construction tower has at least one gas inlet and at least one gas outlet pipe for pumping and discharging helium gas in and out of the balloon atop the pillar.
6. The method as claimed in claim 5, wherein the windmills have aerodynamic blades which can rotate in the same direction irrespective of the direction of the wind.
7. The method as claimed in claim 5, wherein wireless communications are the radio transmitter, the network transmitter, and the broadcast transmitter.
8. The method claimed in claim 5, wherein the height of the tower is around 600 mtrs.