This invention relates to machinery for flaring the ends of large metal pipes and tubes.
Where an end of a large steel pipe functions as a receptor having an end serving as a port for insertion of other objects such as, for example, a second pipe to be nestingly mounted within the bore of such receptor pipe, the end of the receptor pipe is advantageously outwardly flared. By outwardly flaring the end of such receptor or pipe, slight misalignments of the object to be inserted are accommodated, the outward flare effectively guiding the object into the bore of the receptor pipe.
Known and undesirably labor intensive means for flaring pipe ends include welding a short conical tube sections to pipe ends, and cold hammering or hot forge hammering the end of the pipe into a flare. Cold forming pipe flaring machinery is known to substantially overcome the undesirable labor intensive nature of flaring large pipes through hammering or through welded attachments. However, such machinery commonly ineffectively holds a pipe to be flared, fails to present any annular and flared “anvil” surface for effective flare forming, or fails to include a pipe flaring mandrel element which is capable of flaring a pipe in a radially balanced fashion.
The above noted drawbacks and deficiencies of commonly known methods and apparatus for flaring pipes are overcome by the instant inventive pipe flaring machine through its incorporation of a collet clamp having clamping shoes which are adapted to present and cumulatively form an annular and flared anvil surface; and further incorporating a pipe flaring mandrel comprising radially balanced, orbiting, and rotating conical rollers.
A first structural component of the instant inventive pipe or tube flaring machine comprises a frame defining an interior space wherein a pipe is received and secured for end flaring. The frame preferably comprises a steel plate base or end member, preferably configured as a square, and four steel cylindrical columns mounted upon and extending upwardly or laterally from the base. Preferably, the four columns are arranged in a square pattern, and their lower ends are preferably fixedly welded to the base plate.
A further structural component of the instant inventive pipe flaring machine comprises a tube or pipe clamp and attaching means operatively positioning such clamp within the interior space of the frame. The tube clamp preferably comprises a collet ring whose bore has an outwardly and downwardly flared inner wall, and comprising a plurality of, preferably eight, tube clamping shoes arranged radially about the inner periphery of the collet ring. In operation, such shoes compressively move radially inward toward and against a pipe upon upward sliding motion of the shoes across the flared inner surface of the collet ring. Inwardly directed compression applied by the shoes to the pipe effectively secures the pipe in place within the frame. Suitably, though less desirably, other known pipe clamps may be substituted for the preferred collet and shoe clamp, such clamps including vice clamps and tensioned band clamps.
Where the preferred collet clamp is provided, the means for mounting such clamp within the frame preferably comprise an outward radial extension of the collet ring to fixedly, and preferably removably, join with the four columns of the frame. In such configuration, the collet clamp serves as an integral member of the frame. Other clamp attaching means such as braces, struts, or beams interconnecting the frame and the clamp may be suitably substituted for the preferred outward radial extension of the collet ring.
Where the tube clamp comprises the preferred collet clamp configuration, the tube clamp preferably further comprises a rectilinear motion actuator for alternately upwardly and downwardly moving the shoes within the collet's bore. Preferably, the rectilinear motion actuator comprises a plurality of hydraulic cylinders spanning between and interconnecting a gantry which overlies and is attached to the collet ring. Suitably, pneumatic cylinders may be substituted. Also suitably, jack screws may serve as rectilinear motion actuators. Numerous other commonly known rectilinear motion actuators may be suitably utilized for actuating the collet clamp.
A further structural component of the instant inventive tube flaring machine preferably comprises an anvil ring and means for axially mounting the anvil ring within the frame at an elevation immediately underlying the tube clamp. Where the tube clamp comprises the preferred collet clamp configuration, the anvil ring is preferably radially segmented to include a number of segments equal to the number of shoes. Where the preferred segmented anvil ring is provided, the upper ends of the segments are necessarily directly fixedly attached to lower ends of the shoes. Such fixed attachment may suitably comprise whole formation of the anvil ring segments and shoes as unitary articles, or may comprise heat fusion welded or bolted attachments. Such attachments of the anvil ring segments to the shoes comprise means for positioning the anvil ring within the frame. Suitably, though less desirably, the anvil ring may be non-segmented and the means for positioning the anvil ring within the frame may alternately comprise linkages supporting the anvil ring separately from the tube clamp elements. Regardless of whether the anvil ring comprises radially arranged segments or a continuous ring, the anvil ring necessarily presents an outwardly and downwardly flared pipe flaring anvil surface.
A further structural component of the instant inventive tube flaring machine comprises a pipe flaring mandrel having an outwardly and downwardly sloped or flared outer surface, and attaching means for interconnecting such mandrel and the frame. The attaching means preferably positions the mandrel so that it underlies the anvil ring. Preferably, the mandrel comprises a plurality of conical rollers mounted rollably upon a separately rotatable drive cone, the conical rollers being capable of orbiting and rolling motion about the drive cone. Also preferably, the means for attaching such mandrel to the frame comprises an apertured mandrel guiding plate which is slidably mounted upon the four columns for alternate upward and downward motion. Preferably, the lower periphery of the drive cone comprises a toothed gear. Also preferably, the lower bases of the orbiting roller cones comprise matching smaller toothed gears, and preferably the inner periphery of the aperture of the mandrel guiding slide plate comprises matching gear teeth. Also preferably, the upper ends of the orbiting roller cones are mounted upon the upper end of the drive cone by a three way rotary bearing facilitating orbiting and rolling motion of the rollers. In such configuration, the mandrel guiding slide plate is slidably carried alternately upwardly and downwardly by the drive cone and by the bases of the orbiting roller cones, while synchronized rotating and orbiting movement of the roller cones is guided by the three way rotary bearing and by the matching gear teeth of the roller cones, the drive cone, and the mandrel guiding plate.
Where the mandrel comprises the preferred plurality of orbiting roller cones, means for rotating the drive cone and the orbiting roller cones with respect to the mandrel guiding plate are preferably provided. Such means preferably comprises a hydraulic or electric motor mounted upon such plate and comprising a rotary drive linkage for transferring rotary power from such motor to the drive cone and to the orbiting roller cones.
Pressing means are necessarily provided for driving the mandrel and the anvil ring toward each other for pressing a pipe end therebetween and for flaring the pipe end. Preferably, the pressing means comprises a lower rectilinear motion actuator, preferably an hydraulic ram or jack screw, mounted upon the frame's base for driving upwardly against a lower surface of the mandrel. Alternately, the vertical position of the mandrel within the frame may suitably be fixed in place, and the pressing means may alternately drive the tube clamp, a pipe carried by the tube clamp, and the anvil ring toward the mandrel.
In use of the instant inventive tube flaring machine, the tube clamp is operated to hold and secure a pipe whose end is to be flared within the frame, and in a position wherein such end overlies the pipe flaring surface of the anvil ring. Thereafter, the pressing means is actuated to drive the mandrel and the anvil ring toward each other, compressing said pipe end therebetween, and flaring said pipe end.
Accordingly, objects of the present invention include provision of a pipe or tube end flaring machine comprising a frame, and comprising tube clamping means, an anvil ring, a mandrel and pressing means all mounted within the frame. Objects further include incorporation within such machine of a collet clamp whose shoes are configured to present and form an anvil ring. Objects further include incorporation within such machine of a mandrel comprising orbiting conical rollers which are orbitally and rotatably supported and linearly driven by an underlying drive cone.
Other and further objects, benefits, and advantages of the present invention will become known to those skilled in the art upon review of the following Detailed Description, and upon review of the appended drawings.
Referring now to the drawings, and in particular to
Preferably, the collet ring plate 56 has downwardly opening column receiving recesses (not within view) for receiving the upper ends of columns 4, and preferably shear pins 55 extend laterally through the collet ring plate 56, through such recesses, and through shear pin apertures within the upper ends of columns 4, forming shear pin locked sleeve joints. Such locking sleeve joint configuration advantageously allows for removal of the collet ring and gantry assembly from the frame, facilitating pass through of a flared pipe.
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In operation of the instant inventive pipe flaring machine, referring simultaneously to all figures, a pipe 62 having a lower end 70 is secured in place by clamping shoes 58 as described above. Preferably, at the commencement of the pipe flaring process, the lower end 70 of the pipe 62 contacts the sloped or flared surfaces of orbiting roller cones 36 and 38 as depicted in
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While the principles of the invention have been made clear in the above illustrative embodiment, those skilled in the art may make modifications in the structure, arrangement, portions and components of the invention without departing from those principles. Accordingly, it is intended that the description and drawings be interpreted as illustrative and not in the limiting sense, and that the invention be given a scope commensurate with the appended claims.
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