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FIELD OF THE INVENTION 
       [0001]    This application relates to the field of equipment used in drilling large foundation holes for buildings and bridges and more specifically to a unique telescopic drilling bucket mechanism. The current invention provides a drilling bucket assembly along with a unique drill head apparatus that improves the operation by which a drilling operator can remove dirt from a drilling device. With the combination of a drilling head and bucket, the unit can be raised to the surface where the bucket portion is moved up or down from the drill head to empty the excavated material. 
       BACKGROUND OF THE INVENTION 
       [0002]    Foundation chilling has evolved over time and continues to be an essential operation for all construction of bridges, buildings and skyscrapers. Without proper holes for the drilled foundation piles, a budding or bridge could be destroyed in the event of an earthquake. In an effort to improve the production and quality of drilled foundations, there has been a sizable investment, and significant advancement, in the equipment and tools of the trade. 
         [0003]    Some of the most common tools used by foundation drillers are the separate digging, and cleanout buckets. Digging buckets are used to dig through hard layers of dirt and rock and are known for their ability to keep holes true and straight as possible. Drilling buckets are often used to manage water in the hole when drilling fluid is necessary to keep the holes from caving in. Axially separating drill buckets keep the drill fluids clean by containing the loose soils and preventing them from mixing with or contaminating drill fluids. Augers are used for digging large holes but have no efficient means of moving the material to the surface. Cleanout buckets are used to clean the bottom of the holes during the digging process to remove any loose rocks and soil to ensure a clean solid bottom surface for a foundation. 
         [0004]    In executing pile foundations in construction work, a unique method of drilling earth is proposed in this application. In this method a rotatable bucket is used for excavating a straight pile bore and also moving the excavated soil from the bore hole to the surface. The Axially separating drill bucket assembly is attached to the lowermost position of a Kelly bar, a conventional part of the drilling rig, and suspended to perform the drilling operation. When the bucket is rotated, the soil excavated by a unique drill head is moved into the drill bucket. The drill bucket filled with the excavated soil is then raised by the drilling rig and the soil in the bucket is removed when an actuator member comes in contact with the stationary sombrero, a conventional part of the drilling rig, and the drill bucket is either raised above the drill head or the drill head pushed down from the drill bucket. Several methods can be used to accomplish this similar process, some being a scissor action mechanical method, a hydraulic actuated method, a direct downward pressure method and a method where a latch is actuated by a rod coming against the sombrero to release the drill head to translate down a telescoping shaft to remove the material by the means of rapidly spinning the device. 
         [0005]    Numerous innovations for drills used for drilling foundation piles have been provided in the prior art that are described as follows. Even though these innovations may be suitable for the specific individual purposes to which they address, they differ from the present design as hereinafter contrasted. The following is a summary of those prior art patents most relevant to this application at hand, as well as a description outlining the difference between the features of the Axially separating drill bucket and the prior art. 
         [0006]    U.S. Pat. No. 5,234,062 of Hachiro Inoue describes an automatic evacuation drilling bucket comprising a follower formed with a working space for receiving a blade member which is capable of coming in contact with an osculating arm, the working space having upper, lower, transition and receiving compartments. If the blade member is located in the upper and lower compartments, the blade member is engaged with the follower when a drive shaft member is rotated in the normal and reverse directions. If the blade member is urged to move into the receiving compartment through the transition compartment, the blade member comes in contact with the osculating arm when the drive shaft member is rotated in the reverse direction. 
         [0007]    This patent describes an automatic evacuation drilling bucket that operates with a fixed drill bucket that has a hinged member at the bottom for the removal of the excavated material. If the material sticks to the side of the drill bucket it must be jarred to remove it and that often damages the equipment involved. It does not have the capability of digging the hole, cleaning the hole out, moving the material to the surface, separating the drill bucket from the drill head and pushing the material out in one operation. 
         [0008]    U.S. Pat. No. 4,971,163 of Akira Ohashi et al. describes a drilling bucket apparatus for expanding a bore-hole bottom for a cast-in-place pile. Drill bits are pivotally suspended from the upper portion of a drill pipe, which is a main frame of the apparatus, and are expanded and retracted radially by means of hydraulic cylinders. A bucket is attached to the lower end of the drill pipe and scrapers are installed on the side of the bucket. The scrapers are arranged to open and close sideward, following the movement of the drill bits. During drilling work, the apparatus is suspended from a Kelly bar of a drilling machine. When the apparatus is rotated and the drill bits are expanded, the whole expanded shape of a bore-hole bottom is drilled simultaneously and cuttings are scraped into the bucket by means of the drill bits and the scrapers. Further, a bottom lid of the bucket can be released by operating a hydraulically-actuated opening lever, whereby, cuttings are discharged automatically. 
         [0009]    This patent describes a drilling bucket apparatus for expanding a bore-hole bottom for a cast-in-place pile. It does not have the capability of digging the hole, cleaning the hole out, moving the material to the surface, separating the drill bucket from the drill head and pushing, the material out in one operation. 
         [0010]    U.S. Pat. No. 4,604,818 of Hachiro Inoue describes an under reaming pile bore excavating bucket and the method of excavating an under reamed part of a pile bore, and more particularly to an excavating bucket such that an under reamed part of a pile bore can be excavated and further the excavated soil can be moved into the bucket body for easy removal of soil. The bucket includes, in particular, a plurality of slidable wing bits housed within a bucket and moved downward and extended outward along guide rails at the bottom of an already excavated straight pile bore. 
         [0011]    This patent describes an under reaming pile bore excavating bucket and the method of excavating an under reamed part of a pile bore. The bucket includes, in particular, a plurality of slidable wing hits housed within a bucket and moved downward and extended outward along guide rails at the bottom of an already excavated straight pile bore. It does not have the capability of digging the hole, cleaning the hole out, moving the material to the surface, separating the drill bucket from the drill head and pushing the material out in one operation. 
         [0012]    U.S. Pat. No. 2,126,124 of Frank S. McCutcheon describes an excavating bucket that may be used for circular shafts and wells, and that may be completely operated and controlled with only one cable. A further object of my invention is to provide an excavating bucket to be used in confined quarters where the space of operation is limited. Still further objects of this invention are to provide an excavating bucket that is positive in its action, which conforms to the shape of the excavation, that allows water to run from the excavated material in the bucket and that has few moving parts. A still further object of my invention is to provide an excavating bucket that is economical in manufacture, durable and efficient in use. 
         [0013]    This patent describes an excavating bucket that may be used for circular shafts and wells, It does not have the capability of digging the hole, cleaning the hole out, moving the material to the surface, separating the drill bucket from the drill head and pushing the material out in one operation. 
         [0014]    Patent Application Publication No. US 2004/0168831 A1 of Satoshi Nozaki et al. describes locking elements that are provided at an inner member connected to a Kelly bar, and a locking element bearing plate provided at an outer member. The outer member includes a cylindrical bucket and a grab bucket housed inside the cylindrical bucket. When an excavating tool is in its most contracted state, the inner member is rotated forward to lock the locking elements at the locking element bearing plate, thereby disallowing relative vertical movement of the inner member and the outer member. As the excavating tool is rotated by applying a force to the Kelly bar along the lifting direction in this state, an excavating operation can be executed while applying a load smaller than the load of the excavating tool. As a result, it becomes possible to execute an excavating operation with a large excavating tool in conjunction with an earth drill having a small drive force. Projections provided at the outer circumference of the inner member are fitted at guide rails extending along the longitudinal direction and provided at the inner circumference of the second member so as to be allowed to move up/down freely. Thus, the grab bucket having an underground obstacle grabbed therein can be rotated to remove the underground obstacle. 
         [0015]    This patent describes a device where the outer member includes a cylindrical bucket and a grab bucket housed inside the cylindrical bucket. When an excavating tool is in its most contracted state, the inner member is rotated forward to lock the locking elements at the locking element bearing plate, thereby disallowing relative vertical movement of the inner member and the outer member. It does not have the capability of digging the hole, cleaning the hole out, moving the material to the surface, separating the drill bucket from the drill head and pushing the material out in one operation. 
         [0016]    None of these previous efforts, however, provides the benefits attendant with the Axially separating drill bucket. The present design achieves its intended purposes, objects and advantages over the prior art devices through a new, useful and unobvious combination of method steps and component elements, with the use of a minimum number of functioning parts, at a reasonable cost to manufacture, and by employing readily available materials. 
         [0017]    In this respect, before explaining at least one embodiment of this application in detail it is to be understood that the design is not limited in its application to the details of construction and to the arrangement of the components set forth in the following description or illustrated in the drawings. The Axially separating drill bucket is capable of other embodiments and of being practiced and carried out in various ways. In addition, it is to be understood that the phraseology and terminology employed herein are for the purpose of description and should not be regarded as limiting. 
       SUMMARY OF THE INVENTION 
       [0018]    The principal advantage of the Axially separating drill bucket is that it eliminates the stress and shock loads incurred on the machinery&#39;s hydraulic equipment when attempting to remove material from existing drill buckets. 
         [0019]    Another advantage of the Axially separating drill bucket is that it both drills the hole and removes the material in a single operation. 
         [0020]    Another advantage of the Axially separating drill bucket is that in different designs the bucket can be raised above the drill head or the drill head can be lowered below the bucket to remove the excavated material. 
         [0021]    Another advantage is Axially separating drill buckets keep the drill fluids clean by containing the loose soils and preventing them from mixing with or contaminating drill fluids. 
         [0022]    Another advantage of the Axially separating drill bucket is that the unique drill head has the capability to be rotated in one direction to drill the hole with the material entering the drill bucket and rotating in the opposite direction to close off the opening to the internal cavity to retain the material to be lifted to the surface. 
         [0023]    Another advantage of the Axially separating drill bucket is that several methods can be used to either raise the bucket or lower the drill head. 
         [0024]    Another advantage of the Axially separating drill bucket is that when lifted above the surface an actuator member can come in contact with the sombrero of the drill rig to activate the release mechanism. 
         [0025]    Another advantage of the Axially separating drill bucket is the material does not rely on gravity to fall out of the bucket. 
         [0026]    Another advantage of the Axially separating drill bucket is the material can be pushed out and spread out evenly by the accelerated spinning motion. 
         [0027]    Another advantage of the Axially separating drill bucket is the material cannot stick in the bucket. 
         [0028]    Another advantage of the Axially separating drill bucket is if water is in the hole when drilling, there is an internal cavity to allow the water to pass through the Drill Bucket. 
         [0029]    Another advantage is the time saved by only using a single operation rather than lowering a drill unit and an excavating unit separately. 
         [0030]    Another advantage is to provide an Axially separating drill bucket assembly that reduces costly repairs. 
         [0031]    Another advantage is to provide a simple device with few moving parts. 
         [0032]    Another advantage is to provide spring loaded latching mechanism to release and re-latch the drill head from the drill bucket. 
         [0033]    Another advantage is having the angled section on the spring loaded push rod to activate the spring loaded latching mechanism. 
         [0034]    Another advantage is having the spring loaded push rod pressed down by the sombrero against the pusher plate to move the material within the drill bucket out. 
         [0035]    Another advantage is having the telescoping capability between the outer tubular telescoping drill stem with a latching catch and the inner tubular drill stem. 
         [0036]    Another advantage is using square heavy all tubing for the outer tubular telescoping dull stem and the inner tubular drill stem to minimize the torsional stresses on the drill stem when the Axially separating drill bucket is rotated. 
         [0037]    Another advantage is using a sealed hydraulic or pneumatic cylinder with a limited bypass within the square drill stem to cushion lowering of the drill head. 
         [0038]    Another advantage is the addition of the centering tip on the dill head. 
         [0039]    Another advantage is the addition of digging teeth on the outer perimeter of the drill tip plate to create a cleaner clearance hole. 
         [0040]    Another advantage is using a nylon strap or limiting device within the square drill stem to cushion abrupt stopping of the drill head when the material is released. 
         [0041]    Another advantage is using a hydraulic cylinder with a manual fluid flow control valve to cushion lowering of the drill head. 
         [0042]    Another advantage is using a hydraulic cylinder along with a second hydraulic cylinder and a pilot operated check valve to control and cushion the lowering and latching of the drill head. 
         [0043]    Another advantage will be the addition of the bowtie configuration of the drill tip plate along with the two orifices in the drill head plate creating the ability to fill the drill bucket faster. 
         [0044]    These together with other advantages of the Axially separating drill bucket along with the various features of novelty, which characterize the design, are pointed out with particularity in the claims annexed to and forming a part of this disclosure. In this respect, before explaining at least one of the embodiments of the Axially separating drill bucket in detail it is to be understood that the design is not limited in its application to the details of construction and to the composition set forth in the following description or illustrated in the drawings 
         [0045]    The Axially separating drill bucket is controlled by the means of heavy equipment, commonly called the drill rig, with a drill boom that rotatably activates a conventional Kelly bar attached to the device. A unit called the sombrero is a fixed pan of the drill boom that the Kelly bar passes through extending to a box section of the Axially separating drill bucket assembly. The Kelly bar attaches to the box section by a variety of connection means but most often by the means of a square section inserted in a square orifice with a locking retainer. The box section is permanently attached to the drill stem that can be either a round or square cross section and extends through the drill bucket to be connected to the drill head. The drill bucket consists of a heavy walled steel tubular member open at one end and closed at the other h the means of a heavy steel cap plate welded in place. In the center of the cap plate on the preferred embodiment is an orifice where the drill stem passes through and the drill bucket translates up and down. 
         [0046]    A long vertical key section is part of the drill stem that engages in a key slot in the steel cap plate keeping the drill bucket from rotating when the Axially separating drill bucket assembly is turning A pusher plate can be permanently attached to the drill stem in order to push the material out of the drill bucket central cavity when drill bucket is raised. 
         [0047]    In the preferred embodiment the drill bucket will be raised by a single external scissor action mechanism on the outside of the drill bucket above the steel cap plate. The actuator member translates through an elongated slot of the box section to pivotally attach to the first scissor section that rotates about a pivot attached to the drill stem. At the distal end of the first scissor section is a pivoting link attached to a pivot lug fixed to the upper surface of the steel cap plate. A second similar external scissor action mechanism can be added on the other side of the drill stem to equalize the forces required to raise the drill bucket. When the Axially separating drill bucket is raised above the surface the actuator member makes contact with the stationary sombrero exerting a downward force raising the drill bucket. The elongated slot in the box section keeps the mechanism from being clogged when in operation. 
         [0048]    In the first alternate embodiment of the Axially separating drill bucket where the drill bucket will be raised by a single internal scissor action mechanism within the drill bucket. In this process the actuator member translates through an elongated slot of the box section and an elongated slot in the steel cap plate to pivotally attach to the first scissor section that rotates about a pivot point on the drill stem. At the distal end of the first scissor section the second scissor section is pivotally attached with its distal end pivotally attached to a pivot lug fixed to the under surface of the steel cap plate. When the Axially separating drill bucket is raised, the actuator member makes contact with the stationary sombrero exerting a downward force raising the drill bucket. The elongated slots in both the box section and the steel cap plate keep the mechanism from being clogged when in operation. A second similar scissor action mechanism within the drill bucket can be added on the other side of the drill stem to equalize the forces required to raise the drill bucket. 
         [0049]    The drill head consists of a drill head plate that is permanently attached to the distal end of the drill stem. There may be several drill bucket alignment features with the first, being a beveled edge to the drill bucket mating with a beveled edge on the drill head plate. Another alignment feature will be a number of alignment tabs welded around the circumference of the drill head plate with anti-rotation stop blocks attached to the inner surface of the drill bucket to resist any twisting between the drill bucket and the drill head plate. Another alignment feature will be an extension of intermittent side segments of the lower surface of the drill bucket mating with cutouts in the drill head plate. The drill tip plate has polarity of digging teeth and a central rod extending into as mating hole in the drill stem. A circumferential groove on the central rod aligns with a slot in the drill stem where a drill tip plate retainer allows the drill tip plate to rotate and be easily removed if necessary. 
         [0050]    In the digging operation the drill tip plate with cutting teeth pivots against a stop plate welded on the drill head plate so that when rotating the Axially separating drill bucket the opening in the drill head plate is exposed with the material going into the drill bucket cavity. By reversing the rotation, the drill tip plate is forced in the opposite direction against a second stop plate closing the opening in the drill head plate so that the device can be raised to the surface without releasing the excavated material. The limiting stops, on the bottom surface of the drill head plate, act to keep the drill tip plate from making a full rotation in either direction. 
         [0051]    A steel angle bar can be welded to the length of the inner surface of the drill bucket with an orifice in the steel cap plate and the drill head plate creating a separate cavity where water that might accumulate at the bottom of the hole could travel up through the Axially separating drill bucket. This is an option that can be incorporated into any of the embodiments of this application. 
         [0052]    In the second alternate embodiment of the Axially separating drill bucket assembly, the process is to raise the drill bucket by the means of using a large capacity hydraulic cylinder attached to the box section with an actuator member extending up to make contact with the sombrero when the Axially separating drill bucket is raised above the surface. This contact forces the hydraulic fluid into a smaller and longer hydraulic cylinder attached to a lug on the upper surface of the steel cap plate raising the drill bucket away from the drill head plate. Additionally, a second smaller and longer hydraulic cylinder connected to the same large capacity hydraulic cylinder, would be attached to a second lug. on the other side of the drill stem on the upper surface of the steel cap plate to equalize the forces required to raise the drill bucket. 
         [0053]    A third alternate embodiment of the Axially separating drill bucket assembly w use the large capacity hydraulic cylinder with actuator member extending up to make contact with the sombrero when the Axially separating drill bucket assembly is raised above the surface. This contact forces the hydraulic fluid into a second set of smaller and longer hydraulic cylinders attached to a lug on the under surface of the steel cap plate raising the drill bucket away from the drill head plate. 
         [0054]    A forth alternate embodiment of the Axially separating drill bucket assembly will use the large capacity hydraulic cylinder attached to the box section that is permanently attached to the drill stem with the actuator member extending up to make contact with the sombrero when the Axially separating drill bucket assembly is raised above the surface. The drill bucket will be welded permanently to the drill stem and hydraulic fluid forced into one or more smaller and longer hydraulic cylinders attached to a lug on the under surface of the steel cap plate. This action lowers the drill bead plate by the means of a telescoping stem inner member that is an integral part of the drill head plate. 
         [0055]    A fifth alternate embodiment of the Axially separating drill bucket assembly will have the actuating rod spring loaded against the top surface of the drill bucket. The drill bucket and drill stem are welded together with a telescoping stem inner member part of the drill head plate. The actuating rod is welded to the steel drill head plate so that when it comes in contact with the sombrero on the surface the spring is compressed and the drill head plate is lowered away from the drill bucket. 
         [0056]    The sixth alternate embodiment of the Axially separating drill bucket assembly will have a spring loaded latching mechanism holding the drill head up against the drill bucket with an actuator member extending up through the steel cap plate. The box section is permanently attached to the steel cap plate with the Kelly bar held in place by the means of the locking retainer. When the Axially separating drill bucket assembly is raised the actuator member makes contact with the Sombrero releasing the telescoping drill stem extension to lower by the means of gravity until it hits the stop on the lower inner surface of the drill bucket. 
         [0057]    Another embodiment of the Axially separating drill bucket assembly will have a spring loaded latching mechanism incorporating a spring loaded push rod and a central hydraulic cylinder. The spring loaded push rod translates downward through the tubular guide with the angled lower section that activates the spring loaded latching mechanism when pressure is applied by the sombrero as the Axially separating drill bucket assembly is raised. An enlarged tubular guide section of the tubular guide limits the downward travel when pushed downward by the sombrero. The spring loaded push rod translates further downward pressing the pusher plate down to assist in emptying the drill bucket A hydraulic cylinder is housed within the outer tubular square drill stem and the inner tubular square drill stem anchored at the top by the means of the cross pin in the inner tubular drill stem and at the bottom in the outer tubular drill stem by the means of the cross pin. The drill head is at the lower end of the drill bucket. 
         [0058]    Another embodiment of the Axially separating drill bucket assembly will have the spring loaded latching mechanism with a nylon strap replacing the hydraulic cylinder to lower the drill head to a cushioned lower position. The strap will be held by the means of the cross pin in the inner tubular drill stem and at the bottom in the outer tubular drill stem by the means a second cross pin. 
         [0059]    Another embodiment of the Axially separating drill bucket assembly with the spring loaded latching mechanism will have the hydraulic cylinder where the fluid flow is controlled through the hydraulic lines to the manual hydraulic fluid flow control valve attached to the exterior of the drill bucket or within the cab of the drill rig to control the descent of the drill head. 
         [0060]    Another embodiment of the Axially separating drill bucket assembly having the drill head released by the means of the sombrero pressing down on the activation rod of a second hydraulic cylinder to open pilot operated check valve to release and control descent of the drill head through the hydraulic cylinder. 
         [0061]    The Axially separating drill bucket assembly will have an interlocking system between the drill head plate and the drill bucket where the segments of the drill bucket interlock with the cavities in the drill head plate to create a rigid structure. In this embodiment the drill head plate has two orifices into the central cavity of the drill bucket constructed in a bow tie shape with the digging teeth on either side Digging teeth can additionally be added around the perimeter of the drill tip plate. Two stop blocks are welded on the drill head plate to limit the rotation of the drill tip plate to a point of opening or covering the two orifices and trapping the material within the drill bucket central cavity. A replaceable centering tip, with digging teeth, is located on the drill tip plate. 
         [0062]    The foregoing has outlined rather broadly the more pertinent and important features of the present Axially Separating Drill Bucket in order that the detailed description of the application that follows may be better understood so that the present contribution to the art may be more fully appreciated. Additional features of the design will be described hereinafter which form the subject of the claims of this disclosure. It should be appreciated by those skilled in the art that the conception and the disclosed specific embodiment may be readily utilized as a basis for modifying or designing other structures and methods for carrying out the same purposes of the present design. It should also be realized by those skilled in the art that such equivalent constructions and methods do not depart from the spirit and scope of this application as set forth in the appended claims. 
     
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         [0063]    The accompanying drawings, which are incorporated in and form a part of this specification, illustrate embodiments of the Axially Separating Drill Bucket and together with the description, serve to explain the principles of this application. 
           [0064]      FIG. 1  depicts a perspective drawing of the Axially Separating Drill Bucket being lowered into a hole by the means of a drill rig. 
           [0065]      FIG. 2  depicts a cross sectional view of the preferred embodiment of the Axially Separating Drill Bucket with a single external scissor action movement having the drill head in upper position. 
           [0066]      FIG. 3  depicts an exploded view of the retainer in the drill stem securing the drill tip plate into position. 
           [0067]      FIG. 4  depicts a perspective view of the preferred embodiment of the Axially Separating Drill Bucket with a double external scissor action movement having the drill head in upper position. 
           [0068]      FIG. 5  depicts a cross sectional view of the first alternate embodiment of the Axially Separating Drill Bucket with a single internal scissor action movement having the drill head in the upper position. 
           [0069]      FIG. 6  depicts a bottom view of the Axially Separating Drill Bucket with the drill tip plate rotated closing the opening in the drill head plate. 
           [0070]      FIG. 7  depicts a cross sectional view of the first alternate embodiment of the Axially Separating Drill Bucket with the single internal scissor action movement having the drill head in the partially extended position. 
           [0071]      FIG. 8  depicts a bottom view of the Axially Separating Drill Bucket with the drill tip plate rotated exposing the opening in the drill head plate. 
           [0072]      FIG. 9  depicts a cross sectional view of the first alternate embodiment of the Axially Separating Drill Bucket with the single internal scissor action movement having the drill head in the fully extended position. 
           [0073]      FIG. 10  depicts a perspective view of the first alternate embodiment of the Axially Separating Drill Bucket with a double internal scissor action movement having the drill head in upper position. 
           [0074]      FIG. 11  depicts a cross sectional view of the second alternate embodiment of the Axially Separating Drill Bucket using a hydraulic method using a large capacity hydraulic cylinder connected to a smaller longer hydraulic cylinder to raise the drill bucket from the drill head. 
           [0075]      FIG. 12  depicts a perspective view of the second alternate embodiment of the Axially Separating Drill Bucket using a hydraulic method using a large capacity hydraulic cylinder connected to two smaller longer hydraulic cylinders to raise the drill bucket from the drill head. 
           [0076]      FIG. 13  depicts the third alternate embodiment of the Axially Separating Drill Bucket using a hydraulic method using a large capacity hydraulic cylinder connected to two smaller longer hydraulic cylinders to raise the drill bucket from the drill head. 
           [0077]      FIG. 14  depicts a cross sectional view of the forth alternate embodiment of the Axially Separating Drill Bucket having the drill bucket connected to the telescoping drill stem using a hydraulic method with a large hydraulic cylinder connected to two smaller longer hydraulic cylinders to lower the drill head using a telescoping drill stem. 
           [0078]      FIG. 15  depicts a cross sectional view of the fifth alternate embodiment of the Axially Separating Drill Bucket having the drill bucket connected to the telescoping drill stem and the spring loaded actuator member connected to the drill head. When the bucket is raised to the surface and the actuator comes in contact with the sombrero and the drill head is pushed down. 
           [0079]      FIG. 16  depicts a cross sectional view of the sixth alternate embodiment of the Axially Separating Drill Bucket assembly having a spring loaded latching mechanism holding the drill head up against the drill bucket 
           [0080]      FIG. 17  depicts top view of the Axially Separating Drill bucket. 
           [0081]      FIG. 18  depicts a cross sectional view of the sixth alternate embodiment of the Axially Separating Drill Bucket assembly having a spring loaded latching mechanism released with the drill head in the lowered position. 
           [0082]      FIG. 19  depicts a perspective view of the sixth alternate embodiment of the Axially Separating Drill Bucket assembly having a spring loaded latching mechanism holding the drill head up against the drill bucket incorporating a flapper door open over the opening in the drill head plate with the water transfer channel exposed. 
           [0083]      FIG. 20  depicts a perspective view of the sixth alternate embodiment of the Axially Separating Drill Bucket assembly having a spring loaded latching mechanism released and the drill bead in the lowered position incorporating a flapper closed over the opening in the drill head plate with the water transfer channel exposed. 
           [0084]      FIG. 21A  depicts a cross section side view of another embodiment of the Axially Separating Drill Bucket assembly having a spring loaded latching mechanism incorporating a push rod and a central hydraulic cylinder. 
           [0085]      FIG. 21B  depicts a top plan view of the spring loaded push rod and the guide stop section, in relation to he tubular guide. 
           [0086]      FIG. 21C  depicts an enlarged cross section of the spring loaded latching mechanism. 
           [0087]      FIG. 21D  depicts an enlarged cross section of the drill head end of the Axially Separating Drill Bucket assembly with the mounting end of the hydraulic cylinder. 
           [0088]      FIG. 22A  depicts an end view of the spring loaded latching mechanism. 
           [0089]      FIG. 22B  depicts an exploded end view of the spring loaded latching mechanism. 
           [0090]      FIG. 23A  depicts a cross section side view of the Axially Separating Drill Bucket assembly having the spring loaded latching mechanism released by the means of the angled lower section of the spring loaded push rod. 
           [0091]      FIG. 23B  depicts an enlarged cross section of the spring loaded latching mechanism released by the means of the tapered section of the push rod. 
           [0092]      FIG. 24  depicts a cross section side view of another embodiment of the Axially Separating Drill Bucket assembly having the spring loaded latching mechanism with a nylon strap replacing the hydraulic cylinder. 
           [0093]      FIG. 25  depicts a cross section side view of the another embodiment of the Axially Separating Drill Bucket assembly having the spring loaded latching mechanism and the external flow control valve for a hydraulic cylinder. 
           [0094]      FIG. 26  depicts a cross section of the tipper and lower telescoping drill stems illustrating the location of the channel adjacent to the hydraulic cylinder for the hydraulic lines to the external flow control valve for the hydraulic cylinder. 
           [0095]      FIG. 27  depicts a cross section of the upper and lower telescoping drill stems and hydraulic cylinder illustrating reduced size piston allowing the restricted flow of the hydraulic fluid when the drill head is released. 
           [0096]      FIG. 28  depicts a cross section side view of another embodiment of the Axially Separating Drill Bucket assembly having the drill head released by the means of the sombrero pressing down on the activation rod of a second hydraulic cylinder to activate a pilot operated check valve to release and control descent of the drill head. 
           [0097]      FIG. 29  depicts a Perspective view of the drill head end of the Axially Separating Drill Bucket assembly illustrating the interlocking system between the drill head and the drill bucket, the dual cavity opening into the drill bucket in the drill head plate and the bow tie shape of the drill tip plate with the centering tip exploded away. 
       
    
    
       [0098]    For a fuller understanding of the nature and advantages of the Axially Separating Drill Bucket, reference should be had to the following detailed description taken in conjunction with the accompanying drawings which are incorporated in and form a part of this specification, illustrate embodiments of the design and together with the description, serve to explain the principles of this application. 
       DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS 
       [0099]    Referring now to the drawings, wherein similar parts of the Axially Separating Drill Bucket  10  are identified by like reference numerals, there is seen in  FIG. 1  a perspective drawing of the Axially separating drill bucket  10  being lowered into a hole  12  by the means of a drill rig  14  with the Kelly bar  16  extending through the stationary sombrero  18  below the rotational drive mechanism  20 . 
         [0100]      FIG. 2  depicts a cross sectional view of the preferred embodiment of the Axially Separating Drill Bucket  10 A with a single external scissor action movement  22  on the outside of the drill bucket above the steel cap plate  24  where the actuator member  26  translates through an elongated slot  28  of the box section  30  to pivotally attach to the first scissor section  32  that rotates about a pivot  34  attached to the drill stem  36 . At the distal end of the first scissor section  32  is a pivoting link  38  attached to a pivot lug  40  fixed to the upper surface of the steel cap plate  24 . When the Axially Separating Drill Bucket  10 A is raised above the surface the actuator member  26  makes contact with the stationary sombrero  18  exerting a downward force raising the drill bucket  48 . The elongated slot  50  in the box section  30  keeps the mechanism from being clogged when in operation. A long vertical key  52  is part of the drill stem  36  that engages in a key slot  46  in the steel cap plate  24  securing the drill bucket  48  to the drill stem  36  when the Axially Separating Drill Bucket  10 A is rotated. A pusher plate  54  can be permanently attached to the drill stem  36  in order to push the material out of the drill bucket central cavity  56  when drill bucket  48  is raised. 
         [0101]    At the lower distal end of the drill stem  36  is the drill head  60  consisting of a drill head plate  62  that is permanently attached to the distal end of the drill stem  36 . A drill tip plate  64  located below the drill head plate  62  has polarity of digging teeth  66  and a central rod  68  extending into a mating hole  70  in the drill stem  36 . A circumferential groove  72  in the central rod  48  aligns with a slot  74  in the drill stem  36  where a drill tip plate retainer  76  allows the drill tip plate  64  to rotate and be easily removed if necessary An opening  78  ahead of the digging teeth  66  of the drill tip plate  64  allows the excavated material to enter the drill bucket central cavity  56 . 
         [0102]      FIG. 3  depicts an exploded view of the drill tip plate retainer  76  in the drill stem  36  securing the drill tip plate  64  into position. 
         [0103]      FIG. 4  depicts a perspective view of the preferred embodiment of the Axially Separating Drill Bucket  10 A with a second external scissor action movement  82  having the drill head  60  in upper position. The rotational drive mechanism  84  is located above the sombrero  18  with the Kelly bar  16  having a square distal end  86  that will mate with the square orifice  88  in the box section  30  using the locking pin  90  to secure it in place. A steel angle bar  92  welded to the length of the inner surface of the drill bucket  48  with an upper orifice  94  in the steel cap plate  24  and a lower orifice  96  in the drill head plate  62  creates a separate water transfer channel  98  where water  100  might accumulate at the bottom of the hole  12  that can travel up through the Axially separating drill bucket  10 A assembly during the drilling operation. This is an option that can be incorporated into any of the embodiments of this application. 
         [0104]      FIG. 5  depicts a cross sectional view of the first alternate embodiment of the Axially Separating Drill Bucket  1013  where the drill bucket  48  will be raised by a single internal scissor action mechanism  104  within the drill bucket  48 . In this action an actuator member  26  translates through an elongated slot  50  of the box section  30  and an elongated slot  106  in the steel cap plate  24  to pivotally attach to the first scissor section  108  that rotates about a pivot  110  attached to the drill stem  36 . At the distal end  112  of the first scissor section  108  the second scissor section  114  is pivotally attached with its distal end pivotally attached to a pivot lug  116  fixed to the under surface of the steel cap plate  24 . When the Axially separating drill bucket  108  is raised the actuator member  26  makes contact with the stationary sombrero  18  exerting a downward force raising the drill bucket  48 . The elongated slots  50  and  106  in both the box section  30  and the steel cap plate  24  keep the mechanism from being clogged when in operation. There may be several drill bucket  48  alignment features with the first, being a beveled edge  120  to the drill bucket  48  mating with a beveled edge  122  on the drill head plate  62 . Another alignment feature will be a number of alignment tabs  124  welded around the circumference of the drill head plate  62  with anti-rotation stop blocks  126  attached to the inner surface of the drill bucket  48  to resist any twisting between the drill bucket  48  and the drill head plate  62 . 
         [0105]      FIG. 6  depicts a bottom view of the Axially Separating Drill Bucket  10 B with the drill tip plate  64  rotated closing the opening  78  in the drill head plate  62 . The two rotational stops  128  are welded to the bottom surface of the drill head plate  62 . 
         [0106]      FIG. 7  depicts a cross sectional view of the first alternate embodiment of the Axially Separating Drill Bucket  10 B with the single internal scissor action movement  104  having the drill head  60  in the partially extended position. Another optional alignment feature illustrated will be an extension of intermittent side segments  130  of the lower surface of the drill bucket  48  mating with cutouts in the drill head plate  62 . 
         [0107]      FIG. 8  depicts a bottom view of the Axially Separating Drill Bucket TUB with the drill tip plate  64  rotated exposing the opening  78  in the drill head plate  62  with the two rotational stops  128  welded to the bottom surface of the drill head plate  62 . 
         [0108]      FIG. 9  depicts a cross sectional view of the first alternate embodiment of the Axially Separating Drill Bucket  10 B with the single internal scissor action movement  104  having the drill head  60  in the full extended position. The arrows  132  indicate the direction that the excavated material would be pushed out by the pusher plate  54 . 
         [0109]      FIG. 10  depicts a perspective view of the first alternate embodiment of the Axially Separating Drill Bucket  108  with a second similar scissor action movement  104  within the drill bucket  48  that can be added on the other side of the drill stem  36  to equalize the farces required to raise the drill bucket  48 . 
         [0110]      FIG. 11  depicts a cross sectional view of the second alternate embodiment of the Axially Separating Drill Bucket  10 C using a hydraulic method with a large capacity hydraulic cylinder  136  connected to a single smaller longer hydraulic cylinder  138  to raise the drill bucket  48  from the drill head  60 . The large capacity hydraulic cylinder  136  attached to the box section  30  with an actuator member  26  extending up to make contact with the sombrero  18  when the Axially Separating Drill Bucket IOC is raised above the surface. This contact forces the hydraulic fluid into a smaller and longer hydraulic cylinder  138  attached to a lug  40  on the upper surface of the steel cap plate  24  raising the drill bucket  48  away from the drill head  60 . 
         [0111]      FIG. 12  depicts a perspective view of the second alternate embodiment of the Axially Separating Drill Bucket  10 C using a hydraulic method with a large capacity hydraulic cylinder  136  connected to two smaller longer hydraulic cylinders  138  to raise the drill bucket  48  from the drill head  60  to equalize the forces required to raise the drill bucket  48 . 
         [0112]      FIG. 13  depicts cross sectional view of the third alternate embodiment of the Axially Separating Drill Bucket  10 D using a hydraulic method with a large capacity hydraulic cylinder  136  connected to two smaller longer hydraulic cylinders  138  to raise the drill bucket  48  from the drill head  60 . 
         [0113]      FIG. 14  depicts a cross sectional view of the forth alternate embodiment of the Axially Separating Drill Bucket IDE having the drill bucket  48  permanently attached to the drill stem  36  using a hydraulic method with a large hydraulic cylinder  136  connected to two smaller longer hydraulic cylinders  138  to lower the drill head  60  using a telescoping drill stem  140  attached to the drill head  60 . 
         [0114]      FIG. 15  depicts a cross sectional view of the fifth alternate embodiment of the Axially Separating Drill Bucket  10 F having the drill bucket  48  connected to the telescoping drill stem  140  and the spring loaded actuator member  142  connected to the drill head  60 . When the drill bucket  48  is raised to the surface and the actuator comes in contact with the sombrero  18  the drill head  60  is pushed down. 
         [0115]      FIG. 16  depicts a cross sectional view of the sixth alternate embodiment of the Axially Separating Drill Bucket  10 G having a spring loaded latching mechanism  148  holding the drill head  60  up against the drill bucket  48 . The spring loaded latching mechanism  148  operates by the means of the spring loaded actuator member  152  attached to the connector link  150  and the pivotal latch  154 . The pivotal latch  154  is illustrated making contact with the latch catch  156  that is an integral part of the drill stem  36 . A latch stop  158  is fixed to the lower rim of the drill bucket  48 . In this embodiment the box section  160  is permanently attached to the steel cap plate  162 . 
         [0116]      FIG. 17  depicts top view of the Axially Separating Drill Bucket  10 G where the box section  160  is permanently attached to the steel cap plate  162  exposing the upper orifice  94  of the water transfer channel  98  and the end of the spring loaded actuator member  152 . 
         [0117]      FIG. 18  depicts a cross sectional view of the sixth alternate embodiment of the Axially Separating Drill Bucket JOG having a spring loaded latching mechanism  148  released with the drill head  60  in the lowered position. 
         [0118]      FIG. 19  depicts a perspective view of the sixth alternate embodiment of the Axially Separating Drill Bucket  10 G having a spring loaded latching mechanism  148  holding the drill head  60  up against the drill bucket  48  incorporating a flapper door  166  open over the opening  78  in the drill head plate  62  with the water transfer channel  98  exposed. 
         [0119]      FIG. 20  depicts a perspective view of the sixth alternate embodiment of the Axially Separating Drill Bucket  10 G having a spring loaded latching mechanism  148  released and the drill head  60  in the lowered position incorporating a flapper door  166  closed over the opening  78  in the drill head plate  62  with the water transfer channel  98  exposed. 
         [0120]      FIG. 21A  depicts a cross section side view of another embodiment of the Axially Separating Drill Bucket assembly  200  having a spring loaded latching mechanism  204  incorporating a spring loaded push rod  206  and a central hydraulic cylinder  214 . The spring loaded push rod  206  translates downward through the tubular guide  210  with the angled lower section  212  that activates the spring loaded latching mechanism  204  when pressure is applied by the sombrero  18  as the Axially separating drill bucket assembly  200  is raised. A guide stop section  213  of the tubular guide  210  limits the downward travel when pushed downward by the sombrero  18 . The spring loaded push rod  206  translates further downward pressing the pusher plate  54  down to assist in emptying the drill bucket  48 . A hydraulic cylinder  214  is housed within the outer tubular square drill stem  216  and the inner tubular square drill stem  218  anchored at the top by the means of the cross pin  220  in the inner tubular drill stem  218  and at the bottom in the outer tubular drill stem  216  by the means of the cross pin  222 . The drill head  60  is at the lower end of the drill bucket  48 . 
         [0121]      FIG. 21B  depicts a top plan view of the spring loaded push rod  206  and the guide stop section  213  in relation to the tubular guide  210 . 
         [0122]      FIG. 21C  depicts an enlarged cross section of the spring loaded latching mechanism  204  where more clearly depicted is the lower end of the spring loaded push rod  206  and the angled lower section  212  of the tubular guide  210 . The angled lower section  212  is against the actuating roller  224  between the two links  226  and  228  which are pivotally attached to the upper end on the latching mechanism  230 . The support roller  232  maintains the location of the actuating roller  224  before the spring loaded push rod  206  is moved downward. The latching mechanism  230  pivots about the pivot pin  234  to release the catch  236  on the outer tubular square drill stem  216  to lower the drill head  60 . The latching mechanism  230  is held against the catch  236  on the outer surface of the outer tubular square drill stem  216  by the means of the spring  238  in the spring housing  240 . The spring  238  tension can he adjusted by the adjustment screw  242 . 
         [0123]      FIG. 21D  depicts an enlarged cross section of the drill head  60  of the Axially Separating Drill Bucket assembly  200  with the mounting end of the hydraulic cylinder  214  connected to the outer tubular square drill stem  216  and the drill head plate  62  by the means of the cross pin  222 . A replaceable centering tip  244  with digging teeth  66  is attached to the drill tip plate  64 . 
         [0124]      FIG. 22A  depicts an end view of the spring loaded latching mechanism  204  illustrating the two links  226  and  228 , the actuating roller  224 , the support roller  232 , and the spring housing  240  and spring  238 . 
         [0125]      FIG. 22B  depicts an exploded end view of the spring loaded late ling mechanism  204  with the spring housing  240  moved down for maintenance. 
         [0126]      FIG. 23A  depicts a cross section side view of the Axially Separating Drill Bucket assembly  200  having the spring loaded latching mechanism  204  released by the means of the angled lower section  212  of the push rod  206  being moved down by the sombrero  18  releasing the latching mechanism  230  while pushing the spring loaded push rod  206  on down against the material pusher plate  54  along with the controlled downward movement of the drill head  60  by the means of the central hydraulic cylinder  214 . The drill head  60  is shown lowered from the drill bucket  48  illustrating the interlocking lower edge  246  of the drill bucket  48  interconnecting with the edge of the drill head plate  62  serving to secure the two parts together until the drill head  60  is lowered. The arrows  248  indicate the movement of the material within the drill bucket  48  and arrows  250  indicate downward pressure to remove the material in the drill bucket  48 . 
         [0127]      FIG. 23B  depicts an enlarged cross section of the spring loaded latching mechanism  204  released by the means of the angled lower section  212  of the push rod  206  has been rotated back away from the catch  236  on the outer tubular square drill stem  216  and compressing the spring  238 . 
         [0128]      FIG. 24  depicts a cross section side view of another embodiment of the Axially Separating Drill Bucket assembly  200  having the spring loaded latching mechanism  204  with a nylon strap  252  replacing the hydraulic cylinder  214  to lower the drill head  60  to a cushioned lower position. The strap will be held by the means of the cross pin  220  in the inner tubular drill stem  218  and at the bottom in the outer tubular drill stem  216  by the means of the cross pin  222 . It must be understood that any form of elastic, spring, chain or limiting mechanism could function for this purpose and still remain within the scope of this application. 
         [0129]      FIG. 25  depicts a cross section side view of another embodiment of the Axially Separating Drill Bucket assembly  200  having the spring loaded latching mechanism  204 . The flow within the hydraulic cylinder  214  is controlled through the hydraulic lines  258  to the manual hydraulic fluid flow control valve  254  attached to the exterior of the drill bucket  48  or remotely within the cab of the drill rig  14  will control the decent of the drill head  60 . 
         [0130]      FIG. 26  depicts a cross section of the inner tubular drill stem  218  and outer tubular telescoping drill stem  216  illustrating the location of the drill stem channel  256  adjacent to the hydraulic cylinder  214  for the hydraulic lines  258  to extend to the manual hydraulic fluid flow control valve  254  to release and control decent through the hydraulic cylinder  214  of the drill head  60 . 
         [0131]      FIG. 27  depicts a cross section of the inner tubular drill stem  218  and outer tubular telescoping drill stern  216  and hydraulic cylinder  214  illustrating the reduced diameter of the cylinder piston  262  allowing a restricted flow of the hydraulic fluid through the edge cavity  264  when the drill head  60  is released by the spring loaded latching mechanism  204  slowing and cushioning the decent of the drill head  60 . With this system a sealed hydraulic cylinder  214  can be used effectively with no hoses. It is important to be noted that a full sized piston with an orifice or by-pass could also be used to control fluid flow internally without hoses. 
         [0132]      FIG. 28  depicts a cross section side view of another embodiment of the Axially Separating Drill Bucket assembly  200  having the drill head  60  released by the means of the sombrero  18  pressing down on the activation rod  266  of a second hydraulic cylinder  268  to open pilot operated check valve  270  to release and control decent of the drill head  60  through the hydraulic cylinder  214 . 
         [0133]      FIG. 29  depicts a Perspective view of the drill head  60  end of the Axially Separating Drill Bucket assembly  200  illustrating the interlocking system between the drill head plate  62  and the drill bucket  48  where the segments  272  interlock with the cavities  274  in the drill head plate  62  to create a rigid structure. In this embodiment the drill head plate  62  has two orifices  276  into the central cavity  56  of the drill bucket  48 . The drill tip plate  64  is constructed in a how tie shape with the digging teeth  66  on either side. Digging teeth  66  can additionally be added around the perimeter of the drill tip plate  64 . Two stop blocks  278  are welded on the drill head plate  62  to limit the rotation of the drill tip plate  64  to a point of opening or covering the two orifices  276  and trapping the material within the drill bucket central cavity  56 . The replaceable centering tip  244  with digging teeth  66  is shown exploded away from the drill tip plate  64  where a locking pin  280  and nut  282  will secure it in place. 
         [0134]    The unique feature of this application is when the Axially Separating Drill Bucket assembly  200  is rotating in a clockwise direction in the digging operation, indicated by the arrow  284 , the drill tip plate  64  is held against the two stop blocks  278  opening the two orifices  276  into the drill bucket central cavity  56 . After the digging the Axially separating drill bucket assembly  200  is rotating in the counter clockwise direction moving the drill tip plate  64  to closes off the two openings  276  to the drill bucket central cavity  56 . To remove the material, the Axially separating drill bucket assembly  200  is raised up till the pushrod presses against the sombrero releasing the latch mechanism and the drill head  60  is lowered and rotated spreading the material out to the sides. When the drill bucket  60  is emptied it is lowered down away from the sombrero and pushed against the ground to automatically latch the assembly closed again. This operation can be completed by one person in the drill rig  14  with just the Axially separating drill bucket assembly  200 . 
         [0135]    The Axially Separating Drill Bucket  10 , and the Axially Separating Drill Bucket assembly  200 , shown in the drawings and described in detail herein disclose arrangements of elements of particular construction and configuration for illustrating preferred and alternate embodiments of structure and method of operation of the present application. It is to be understood, however, that elements of different construction and configuration and other arrangements thereof, other than those illustrated and described may be employed for providing an Axially Separating Drill Bucket  10 , and the Axially Separating Drill. Bucket assembly  200 , in accordance with the spirit of this disclosure, and such changes, alternations and modifications as would occur to those skilled in the art are considered to be within the scope of this design as broadly defined in the appended claims of this application. 
         [0136]    Further, the purpose of the foregoing abstract is to enable the U.S. Patent and Trademark Office and the public generally, and especially the scientists, engineers and practitioners in the art who are not familiar with patent or legal terms or phraseology, to determine quickly from a cursory inspection the nature and essence of the technical disclosure of the application. The abstract is neither intended to define the invention of the application, which is measured by the claims, nor is it intended to be limiting as to the scope of the invention in any way.

Summary:
There is provided an Axially separating drill bucket for drilling large holes in the earth by which a drilling operator can perform the drilling operation with the Axially Separating Drill Bucket, incorporating a spring loaded latching mechanism and a hydraulic cylinder within a drill head casing, and remove the excavated material in one operation. The unit can be raised to the surface where the bucket portion is moved up or down from the drill head to empty the excavated material. A spring loaded latching mechanism is disclosed having a pushrod which activates the latch by making contact with an external force. A centrally located hydraulic cylinder power assists the drill head to be raised and lowered to remove the material collected within the drill bucket.