Title:
Mining drill sheels
Kind Code:
A1


Abstract:
Mining drill steels have their flat engaging surfaces at their ends and a component part having a matching internal surface is press-fitted onto the end of the drill steel.



Inventors:
Terry Sr., Rein L. (Verdunville, WV, US)
Terry Jr., Rein L. (Verdunville, WV, US)
Application Number:
09/837315
Publication Date:
11/29/2001
Filing Date:
04/19/2001
Assignee:
REIN TERRY L.
REIN TERRY L.
Primary Class:
International Classes:
E21B17/00; E21B17/04; (IPC1-7): E21B17/00
View Patent Images:
Related US Applications:



Primary Examiner:
NEUDER, WILLIAM P
Attorney, Agent or Firm:
Megan D. Dortenzo, Esquire (Michael T. Smith, Esquire Steptoe & Johnson PLLC P.O. Box 2190, Clarksburg, WV, 26302, US)
Claims:

What is claimed as new and desired to be secured by Letters of Patent is:



1. A drill steel member for a roof drilling system used in the mining industry, said drill steel member comprising: a body formed from a steel tube having a first uniform outer diameter; a first machined end integral to said body, said first machined being devoid of threads and having an external shape and a first outer dimension smaller than said first uniform outer diameter of said body; a component part comprising an aperture formed therein, said aperture having an internal shape corresponding to said external shape of said first machined end, said aperture having an inner uniform dimension less than said first outer dimension of said first end; and wherein said component part is coupled to said first machined end by a press-fitting engagement.

2. A drill steel member for a roof drilling system used in the mining industry, said drill steel member comprising; a body formed from a steel tube having a first uniform outer diameter; a first machined end integral to said body, said first machined end being devoid of threads and having an external shape and a first outer dimension smaller than said first uniform outer diameter of said body; and a component part comprising an aperture formed therein, said aperture having an internal shape corresponding to said external shape of said first machined end, said aperture having an inner uniform dimension less than said first outer dimension of said first end; and, wherein said component part is coupled to said first machined end by a press-fitting engagement.

Description:
[0001] This invention relates generally to alloy steels used in drilling operations, more specifically it relates to drill steels normally used for roof bolting operations.

BACKGROUND OF THE INVENTION

[0002] This application is a continuation of application Ser. No. 08/917,623 filed Jul. 23, 1997 by Terry L. Rein, Sr., et. al. for Mining Drill Steels and Methods of Making the Same.

[0003] For a number of years mining, particularly coal mining, has been carried out by securing protective plates to the roof of a mine shaft as it is advanced through the earth. Such plates protect the shaft and most importantly protect the miners against a collapse of, or falling of debris from, the roof of the shaft. To secure the plates to the mine roof, holes are drilled in the roof and the protective plates are secured by bolts anchored in the roof either by being embedded in resin forced into a hole drilled in the roof or by a bolt which is expanded to grip in the hole.

[0004] U.S. Pat. No. 4,226,290 to L. H. McSweeney in its drawings and text provides a detailed explanation of the devices and techniques of “roof drilling” in coal mines and reference is made to that patent for a more complete explanation.

[0005] It should not be surprising that coal as a fuel must compete with other sources of energy such as gas and oil and that coal from one mine must compete with coal from competitive mines. Therefore, the time required to advance and secure a mine shaft and the costs of materials used to secure that shaft are cost factors which, when reduced, can save measurable amounts and thereby enhance competitiveness.

[0006] To speed up the time required to drill the holes for attachment of the protective plates, for some time the industry, has used bits, called “dust hogs” by some, provided with openings into which the dust or cuttings produced by the bit as the drill advances may enter. Connected to the bit is a length or lengths of drill steel formed as hollow tubes of a suitable steel material. That tube, or varying lengths of it, are connected ultimately to the rotating chuck of a drill motor. The chuck itself is connected to a vacuum to draw the dust from the dust hog through the drill tubes into a collector. In this way the air in the mine is kept relatively free of dust, thus helping to maintain the health of the miners and to lessen the chances of an explosive mixture in the air.

[0007] As explained in U.S. Pat. No. 4,226,290 the drill steels have different functions and are assigned different tasks. Thus, a finisher is a rod having two hexagonal ends with one end engaging the drill bit while the other end fits into the female end of another length of drill steel called a pusher. The pusher or another piece called a starter, may be engaged at one end in a drive system and has a squared end or hands off hexagonal end for that purpose. Various couplings and collars may be used and assembled by press fitting on the ends of the steels.

[0008] In the prior art known to us the hollow tubes, known as “drill steels”, have been formed with flat surfaces, either square or hexagonal, at their ends. These surfaces may be formed on the external surface of the tube or the internal surface and are used to connect one tube to another or to a drill chuck or the bit..

[0009] To our knowledge these drill steels have been formed as original equipment by forging the internal or external flat surfaces. That process has the adverse effect of causing a stressed, weakened portion to be created along the length of the drill steel following the forged surface. Subsequent heat treating does not remove that stressed and weakened area. Consequently, during the use of drill steel it may fracture. Such a fracture gives rise to several problems.

[0010] The first of these is the great potential of injury to the miners operating the equipment or in its vicinity. Thus the situation at the time of such a fracture may involve lengths of hollow steel rods extending vertically and pressed upwardly and subjected to rotating forces and upward pressure and perhaps 10 feet in length. Consequently a fracture of one section could cause a number of flying steel projectiles capable of causing injury.

[0011] Another problem is the cost of time and energy to replace the fractured piece in order that the work may continue.

[0012] Still a third problem is the uncertainty as to when the fracture will occur. This uncertainty exists because it may occur in a relatively short time after the drill steel is put into use or it may occur at any time and therefore all precautions taken for safety or other reasons must be available at all times.

[0013] Because such fractures are relatively common, to reduce the costs associated with this operation, it has been the practice to repair the drill steels once fractured. This is done by cutting the steel to provide a clean smooth end and welding a new socket or flat surface shank on the now shortened length of drill steel. Apart from the time required for and the expense of this process, the problem of the stressed portion following the now welded piece is created again because of the heat required for the welding operation and the possibility of new fractures, with all of the previous problems, still exists.

[0014] As pointed out above, varying lengths of the hollow pieces of drill steel are connected one to the other to provide the necessary driving connection between the drill chuck and the dust hog. The bit cuttings and collected dust from the dust hog are drawn through the lengths of drill steel passing from one to the other until they are deposited in a collector. In the prior art where these lengths are connected to one another or the couplers, adapter, sockets or shanks, the ends of the various pieces are formed with flat surfaces. It is possible to have a build-up of the collected material at the surfaces perhaps causing a total stoppage of flow, causing a narrowing flow area decreasing the efficiency of the system. This too can lead to a halt in the work adding to the costs of operation.

[0015] After a hole has been drilled, the drill steel, which may be a dust hog, as described herein, is removed and a bolt is placed in the hold. Resin is then shot into the hole and the bolt is spun at a high rate until the resin is set, securing the bolt in the hole. The bolt is spun using a wrench engaged at one end in the chuck of a rotating tool. A wrench for this purpose incorporates an embodiment of this invention.

[0016] Therefore, it is an object of the invention to provide a novel process for the manufacture of drill steels which does not result in a diminished strength area anywhere along the length of such an article.

[0017] It is another object of this invention to provide a novel drill steel capable of being used for extended periods with less concern for failure than heretofore possible.

[0018] A still further object of this invention is to provide a novel drill steel wherein the possibility of stoppage of flowing material within the steel is reduced.

SUMMARY OF THE INVENTION

[0019] The foregoing and other objects of the invention are achieved by removing metal from the exterior or interior, as the case may be, of the hollow drill steel to form the required flat coupling or engaging surfaces. In a preferred embodiment this is accomplished by machining the surfaces.

[0020] In another aspect of the invention a smoother flow of material in the drill steels is provided by forming a transition surface on the ends of the lengths of drill steel, reducing the possibility of trapping passing particles of material.

[0021] In still another aspect of the invention various elements of the machined pieces may be press fitted to each other.

BRIEF DESCRIPTION OF THE DRAWINGS

[0022] The invention itself is set forth in the claims appended hereto and forming a part of this specification while an understanding of various embodiments thereof may be had by the reference to the Detailed Description taken in conjunction with the drawings in which:

[0023] FIG. 1 is a side view partially in section illustrating one embodiment of the invention;

[0024] FIGS. 2 and 3 are end views along the lines 2-2 and 3-3 respectively of FIG. 1;

[0025] FIG. 4 is an exploded side view of another embodiment of the invention;

[0026] FIG. 5 is an end view along the line 5-5 of FIG. 4;

[0027] FIG. 6 is a partial side view of the end of a length of drill steel according to the prior art; and,

[0028] FIG. 7 is a partial side view of the end of a length of drill steel in accordance with this invention.

DETAILED DESCRIPTION

[0029] Referring first, to FIG. 1 the reference numeral designates generally a length of drill steel in the form of a tube 2 having a hollow passage 4. Formed at one end is a first portion 6 having a hexagonal end. Such a hexagonal end is customarily used to engage a drill bit and may be provided with a hole 7 to engage a retaining clip. Formed at the other end is a second portion having a hexagonal surface B.

[0030] It should be understood that the shape of flat surfaces on the ends of drill steel are determined by the shape of the element with which it is to be connected and therefore is polygonal, that is, typically square or hexagonal as required. Thus the coupling element may be a socket, wrench, drill chuck or drill bit. Also it may be a collar or a shank permitting coupling of one member to another member. Likewise, whether the flat surface is internal or external depends upon the same considerations. The various connectors, collars and such are provided with surfaces matching the end of the drill steel that they are to engage and can be mounted on the steel using press fits.

[0031] FIGS. 2 and 3 illustrate the cross section of a drill steel along the lines 2-2 and 3-3, respectively of FIG. 1.

[0032] FIG. 4 illustrates an alternative embodiment of the invention. In this figure the drill steel 9 has an external hexagonal surface 10 at one end. A female connector 12 having an internal hexagonal surface may be pressed on the end 10 to engage another length of drill steel. See FIG. 5 which is a sectional view along the lines 5-5 of FIG. 4. Formed at the other end is a hexagonal external end 14, which may, when in use engage in complementary tube 16 having a matching hexagonal internal surface and may be press fitted on the end 14 along with a collar 16.

[0033] As stated above in the prior art the engaging square or hexagonal surfaces are formed by forging. In this process the portion of the drill steel to be forged is heated to a very high temperature, on the order of 1700 degrees F. and essentially beaten to the desired shape. This process results in a stressed and weakened portion in areas following the forged portion such as indicated by the bracket 20 in FIG. 1.

[0034] This invention involves forming the flat surfaces by machining them, that is, the necessary metal is removed from the drill steel which consequently is not distorted by a forging process. This process is carried out using conventional machine tools such as a vertical mill. To facilitate the process special fixtures for advancing the cutting tool and positioning the drill steel for each pass of the cutting tool may be used. Such fixtures, however, form no part of this invention. The drill steels themselves are heat treated either prior or subsequent to the machining process. It should be understood that the temperatures used to heat treat are not of the same magnitude as those used to render the steels malleable for forging.

[0035] As a result of this process the drill steel is not weakened in any respect that we have been able to determine. Consequently the possibility of fracture caused by a stressed section is lessened, if not eliminated entirely.

[0036] The resulting advantage to the industry and the miner have been pointed out above.

[0037] Reference is made to FIGS. 6 and 7 of the drawings for a description of another advantageous aspect of the invention. FIG. 6 illustrates a drill steel 22 in accordance with the prior art. Drill steel 22 is shown broken to indicate it may be of any length. It is provided with two ends 24 and 26 having flat surfaces, each shown in cross section. The end 24 is formed as a square internal surface while the end 26 is formed as a hexagonal surface. In the prior art the respective faces 28 and 30 of each of these flat surfaces are at right angles to their lengthwise extensions. Thus, as materials from the dust hog flow through the drill steel when in operation these materials may collect around the flat surfaces such as 22 and 24. The build-up of these materials can result in blockage of the passage or its narrowing, thereby decreasing the efficiency of the process.

[0038] By machining the flat surfaces in accordance with the invention their ends or faces can be chamfered or sloped as shown at 32 and 37 in FIG. 7. In this figure the drill steel 36 is shown as having an exterior hexagonal surface 38 and an interior square surface 40. As a result of this construction no sharp ledges or faces such as shown at 28 and 30 in FIG. 6 are presented to obstruct the flow of materials.

[0039] It should be understood that the process of machining drill steel can be used on any such devices whether it be a starter, a pusher, a finisher or a driver. Likewise the process can be used on the chucks, adaptors, shanks, couplings and the like, that are formed with square or hexagonal surfaces used with the drill steels.

[0040] While various embodiments have been shown and described it is contemplated to claim all embodiments as come within the scope of the claims appended hereto: