Method and apparatus for boring through a solid material

Boring or penetrating the earth – With tool shaft detail

Reexamination Certificate

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Details

Reexamination Certificate

active

06736226

ABSTRACT:

TECHNICAL FIELD
The present invention relates to a method and apparatus for boring through a solid body. More particularly, the invention relates to an improved rotary drill bit for boring holes with increased efficiency through difficult to penetrate materials.
BACKGROUND ART
There are different drill bits for drilling through a variety of solid materials. Many of these drill bits are designed for particular applications. For instance, drill bits have been designed to drill through wood, metal, and concrete. In order to drill through these different materials, designers have varied the material used to produce the drill bits, the shape of the drill bits, and the speed with which the drill bit is operated.
One problem existing with many drill bits is the rate at which they will drill a hole is too slow. When the material to be drilled is difficult to penetrate, the process of boring a hole may take as long as several minutes. It is often important to maximize the efficiency at which a hole can be bored into a given material in order to improve manufacturing productivity. Such is the case in drilling tap holes in metal purifying blast furnaces.
The first step in producing steel sheet which is used in the building and construction industry, the automotive industry, the appliance industry, the electric motor industry, etc., is to produce relatively pure iron from iron ore. This process is carried out within a blast furnace. In order to maximize the productivity of a steelmaking facility, as much pure iron as possible must be produced. Many resources are expended in developing methods and procedures to increase the amount of pure iron which can be produced annually.
In developing these methods and procedures, every manufacturing variable in the blast furnace process is optimized. One of these variables is the rate at which the blast furnace can be tapped to drain molten iron from the furnace. A typical blast furnace is tapped from seven to twelve times per day seven days per week. The typical blast furnace tap hole takes several minutes to drill. In fact, some tap holes take as long as 15 minutes to drill.
The rate at which the tap hole is drilled is adversely affected by drill bit “walking.” Walking occurs as the drill bit first meets the material to be drilled, it slides or skids laterally rather than boring into the material. Therefore, drill bit walking prevents the drill operator from initiating the drilling process.
The drilling process is also slowed by drill bit binding. Binding occurs when loosened debris created in the drilling process builds within the hole. The debris accumulates around the drill bit and freezes the drill bit within the hole preventing the drill bit from rotating within the hole.
In order to solve some of these problems, certain drill bits have been designed which have air passages. Pressurized air is forced through the passages toward the drill bit/solid body interface to blow the debris away from the drill bit and prevent binding. However, when the hole to be drilled has a substantial length, as is the case with a blast furnace tap hole, the debris continues to build because it cannot escape the hole.
The present invention is provided to solve these and other problems.
SUMMARY OF THE INVENTION
The present invention is directed to a drill shaft connectable to a drilling apparatus at one end a drill bit at an opposing end for boring a hole through solid materials. The drill shaft of the present invention has interchangeable parts and increases the rate at which a hole can be drilled.
One object of the present invention is to provide a sectional shaft. The shaft includes a drill shaft and an extension shaft. The drill shaft may include an outer sleeve fixedly attached to an end of the shaft. At an opposite end of the shaft, the sleeve is not fixedly attached. The shaft passes through the interior of the sleeve. The sleeve is spaced a distance from the shaft so that the shaft is approximately centered within the sleeve. As pressurized air is introduced through the passage, it passes through the interior of the shaft until the air reaches an outlet between the fixed and free ends of the sleeve. The air then travels down along the shaft through the space between the shaft and the sleeve. The air is then expelled from the space at the free end of the sleeve to blow off debris.
The extension shaft joins the drill shaft with a drilling apparatus. The extension shaft includes a base unit of a heavy wall rod. The base unit includes a first end threaded for connection to the drilling apparatus and a second end threaded for connection to the drill shaft. Anti-lock nuts are located at the first and second ends. The anti-lock nuts prevent the shaft connections from seizing that results from the torque of the drilling apparatus. The anti-lock nuts also protect the threads on the shafts when molten iron emerges from a blast furnace tap hole. A block maintains the integrity of the threaded connections.
Other advantages and aspects of the present invention will become apparent upon reading the following description of the drawings and detailed description of the invention.


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