Boring or penetrating the earth – With tool shaft detail
Reexamination Certificate
1999-09-07
2001-04-24
Pezzuto, Robert E. (Department: 3671)
Boring or penetrating the earth
With tool shaft detail
C175S057000
Reexamination Certificate
active
06220373
ABSTRACT:
FIELD OF THE INVENTION
This invention relates generally to rock drilling and more particularly to drilling with rotary-percussion drilling apparatus, and is specifically addressed to a low-cost drill rod for use with rotary-percussion drilling apparatus utilizing a compressed air system to blow drilling debris from the hole being drilled. In a narrower sense this invention relates to the art of opening tap holes in shaft furnaces such as a blast furnace and to blast furnace tap hole drills, and particularly to a new and unique, low cost, easy to manufacture, drill rod for use with such shaft furnace tap hole drills, or any drilling procedure utilizing compressed air blown through the drill bit.
BACKGROUND OF THE INVENTION
It is well known that the hearth of an iron blast furnace is provided with a tap hole, commonly referred to as an “iron notch” through which molten iron, usually referred to as “hot metal”, is drawn off at periodic intervals during a blast furnace campaign. During a normal campaign, such tapping must be done an average of five to twelve times daily, as the blast furnace hearth becomes filled with molten iron (i.e., hot metal) and molten slag. After the blast furnace has been tapped, i.e. the molten hot metal and slag drained therefrom, the tap hole, or iron notch, is plugged with clay or “mud” which will harden and seal to tap hole until the next time the blast furnace is tapped.
In accordance with conventional practices, a special drill is often utilized to open the tap hole, i.e., drill a passageway through the hardened clay plugging the iron notch, for purposes of tapping the blast furnace. Such blast furnace tap hole drills are normally pneumatically or hydraulically operated rotary-percussion drills comparable to rock drills utilized in the mining industry. Such drills impart both a rotary and an impact force on an elongated drill rod having a rock drill bit at the end thereof, which is disposed against the iron notch, and normally includes a compressed air system for blowing compressed air through the center of the drill bit and drill rod assembly to purge drilling debris from the drilled hole. Typical operations usually utilize a four-wing drill bit having an axial air passage through which compressed air is blown, with the drill bit attached to an elongated drill rod (typically at least about 10 feet in length) having an air passageway drilled throughout the full axial length thereof.
The base support for the blast furnace tap hole drill is normally secured to the floor, a structural column or some solid base structure in the vicinity of the blast furnace iron notch, and is provided with suitable linkage members and remote controls so that the blast furnace tap hole drill can be remotely operated to move the drill into proper position for drilling the tap hole, then operated to drill the tap hole, and thereafter moved back away from the tap hole and the heat of the emerging hot metal, where the drill can be serviced and prepared for the next tap.
To prepare the blast furnace tap hole drill for each succeeding tap, it is always necessary to replace the drill bit, if not the entire drill bit and drill rod assembly to which the drill bit is secured. This is because the temperature of the blast furnace hot metal, being about 2700-2800° F., severely erodes the drill bit after it drills through the clay plug and enters the bath of molten hot metal. In addition, once the tap hole is drilled, the ferrostatic head of hot metal, within the blast furnace, will cause hot metal to emerge through the tap hole around the drill bit and drill rod before the drill rod and bit can be safely withdrawn from the tap hole. Oftentimes, the drill bit and drill rod will not only be severely eroded, but portions of the drill bit remaining may virtually be “welded” to the end of the drill rod to which it had previously been removably attached. In such event, it may be impossible to remove the drill bit from the drill rod to replace a new drill bit, and accordingly, it usually becomes necessary to replace the entire assembly, i.e., drill bit and adjoining drill rod or drill rod component to which the drill bit becomes welded. Accordingly, the expense associated with such a result is normally rather excessive when considering not only the cost of the replacement drill bit, but also the cost of the replacement drill rod, both of which are normally beyond salvage and must be discarded. Indeed, such drill rods, as necessary for tapping shaft furnaces, such as a blast furnace, are rather costly to produce in that they must be good quality steel of exceptional length, and must have an air hole drilled through the full length. Accordingly, the art is not only in need of a lower cost drill bit, but also in need of a lower cost drill rod, one in which the costly need to drill an elongated, axial air passageway can be eliminated or reduced.
SUMMARY OF THE INVENTION
The present invention is predicated upon the conception and development of a new and unique low-cost drill rod which is easily and cheaply manufactured by eliminating the need to drill an axial air passageway therethrough, and which can, therefore, be discarded after a single use, if necessary, without concern for the cost thereof.
In essence, in it's simplest form, the unique new drill rod of this invention comprises an elongated, solid cylindrical steel bar having a first end threaded to permit attachment thereof, to the drilling apparatus, and a second end threaded to receive a drill bit. A tubular sleeve, also preferably made of steel, is axially disposed over and around the cylindrical outer surface of the cylindrical bar to form an annular chamber between the steel drill rod and tubular sleeve. The length of the tubular sleeve is not sufficient to overlay the first and second threaded ends of the steel bar. A first end of the tubular sleeve adjacent to the first end of the steel bar is joined, for example, by welding or the like, to the surface of the steel bar to seal the first end of the annular chamber. An aperture is provided through a side wall of the steel rod under the tubular sleeve and adjacent to the sealed end of the annular chamber, so that the aperture provides communication between the first end of the steel bar and the interior of the annular chamber. Accordingly, compressed air applied at the first end of the steel bar will pass therefrom and into the annular chamber, and exit at the far end of the annular chamber, adjacent to the threaded second end of the steel bar. The result, of course, is that the elongated air passageway, normally provided by a rather expensive drilling technique through the elongated axial length of the drilling rod, is in part replaced by the annular chamber provided between the steel bar and the tubular sleeve disposed thereover.
OBJECTS OF THE INVENTION
It is, therefore, a primary object of the present invention to eliminate or lower the cost of producing elongated drill rods having airways therethrough.
It is another primary object of this invention to eliminate the cost of drilling an elongated hole throughout the length of an elongated drill rod.
It is still another primary object of this invention to lower the cost of blast furnace tap hole drilling by utilizing a low-cost drill rod.
It is a further object of the present invention to provide a unique low-cost drill rod for use with rotary-percussion drilling apparatus having a compressed air system for blowing compressed air through such a drill rod, whereby, the expense of drilling an elongated hole through the axis of the drill rod is eliminated.
It is a still further object of the present invention to provide a unique low-cost drill rod for use with a blast furnace tap hole drill having a compressed air system for blowing compressed air through such a drill rod to purge drilling debris from the tap hole being drilled, whereby, the expense of drilling an elongated hole through the axis of the drill rod is eliminated.
An even further object of this invention is to provide a new and unique drill rod for use with rotary-p
James Ray & Associates
Pezzuto Robert E.
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