Technical Field

Engineering involving concrete electricity pole structures.

Background Art

Previous electricity poles were high priced with production methods that were not environmentally friendly, because they required a chemical coating process (galvanization). The chemicals used are highly toxic to humans, e.g. to the lungs, respiratory system and other organs/systems if they need to be manufactured in large numbers. Furthermore, the usage life is less when compared to concrete poles. This concrete pole can resist corrosion in comparison to steel poles with the ability to withstand damages from high levels of sulphate occurring as a result of exposure to environmental conditions with sulphate in or under the ground or wastewater from households or industrial factories. They are highly environmentally friendly, prevent the spread of fire and resist corrosion better than metal poles.

Therefore, the aim is to arrange for a concrete electricity pole structure that is flexible, strong, inexpensive and feasible for use in place of high-priced metal electricity poles. The advantages of concrete poles are minimal vibrations and bending from various forces, resistance to corrosion when compared to steel poles, ability to withstand damages from high sulphate levels occurring as a result of exposure to environmental conditions with sulphate in or under the ground or waste water from households or industrial factories. The poles are also highly environmentally friendly in addition to better prevention and resistance to fire and corrosion.

Description of Embodiments

The concrete electricity pole structure with a number of vertical metal wires inside the concrete electricity pole arranged all around to form a central core inside the vertical metal wires is wound with the spiral wire from the beginning of the bottom of the vertical metal wires to the top of the vertical metal wires. The pile foundation is a pointed pole consisting of a number of points forming a symmetrical extension from the center. The center of the pile foundation has a hollow hole. The upper section of the concrete electricity pole structure is equipped with a light bulb.

This invention is aimed at having concrete electricity pole structure that is flexible and can be used in place of highly priced metal electricity poles with resistance to corrosion in comparison to steel poles. The poles are resistant to high levels of sulphate, environmentally friendly, and prevent the spread of fires.

Full Disclosure of the Invention

Figure 1 and Figure 2 show the images of the assembly of the concrete electricity pole structure, which consists of the following:

The concrete electricity pole structure (10) made from concrete is either a straight cylindrical or square pole in which the center is an open space ( 11 ) for handling the insertion of electrical cable into the concrete electricity pole (10). The shape is formed by a concrete mold.

Inside the concrete electricity pole structure (10) is a number of vertical metal wires (12) arranged all around to create a central core inside. A number of vertical metal wires ( 12) is wound with the horizontal metal wire (14) functioning as the cover from the beginning of the bottom of the vertical metal wire (12) to the top of the vertical metal wires (12) to add strength and flexibility.

A number of vertical metal wires (12) are wound with the spiral wire (13) from the beginning of the bottom of the vertical metal wires (12) to the top of the vertical metal wires (12) to add strength and flexibility.

A number of horizontal metal wires (14) arranged all around to form a central core inside the horizontal metal wires (14) wound with the spiral wire (13) from the beginning at the bottom of the horizontal metal wires (14) to the top of the horizontal metal wires (14).

A number of vertical metal wires (12) and spiral wires (13) serve as the metal framework of the concrete electricity pole structure (10) as the central core inside. The metal framework of the concrete electricity pole structure (10) is arranged in a concrete mold and mixed concrete is poured to form the concrete electricity pole structure (10) with vertical metal wires (12) and spiral wires (13) inside.

The concrete electricity pole structure (10) with vertical metal wires (12) and spiral wires (13) inside have equal diameters from the bottom to the top.

Or the concrete electricity pole structure (10) with vertical metal wires (12) and the spiral wire (13) inside has a smaller diameter from the bottom to the top to make the diameters of the upper section smaller than the lower section.

The concrete electricity pole structure ( 10) functions to be driven into the group without the need for a pile foundation (30) by using with an ordinary prefabricated base available on the market. Furthermore, the base can be poured for use with this concrete electricity pole structure (10).

As for additional parts for the concrete electricity pole structure (10), the lower section is attached to a metal plate (20) that is a wide plate functioning as the base of the concrete electricity pole structure (10) for attachment to the pile foundation (30).

The pile foundation (30) is a pointed pole consisting of a number of points (31 ) forming a symmetrical extension from the center of the pole. In this invention, a number of points form a symmetrical extension from the center to add strength to adherence and density of the soil and to better accept weight. In addition, the poles can be driven into the ground easily. The piles are pointed, which prevents the pile foundations (30) from spinning around. Furthermore, when the surrounding soil is dense in between the points (31), the pile foundation (30) will be stronger and deeper than other pile foundations in general.

The center of the pile foundation (30) has a hollow hole (32) and the top of the pile foundation (30) is an extension (33) for being driven into wet areas, so water can be drained out through the hollow hole (32) for convenience in driving the poles in areas with standing water.

The upper section of the concrete electricity pole structure (10) is equipped with a set of light bulbs (40) for use in place of previous highly priced poles. Brief Description of Drawings

Figure 1 shows an image of the assembly of the concrete electricity pole structure in this invention.

Figure 2 shows an image of the parts of the concrete electricity pole structure in this invention.

Best Invention Method

As stated in the Full Disclosure of the Invention.