Claims
- 1. In apparatus for establishing a layer of particulate material on at least a portion of the active surface of a rotatable centrifugal casting mold, the combination of
- a hollow outer member having an outer surface and an inner surface,
- the dimensions and shapes of the outer surface being such that at least a portion of the outer member can be inserted axially into the mold;
- an inner unit comprising
- first means capable of cooperating with the outer member to define cavity to accommodate the particulate material to be applied to the mold, and
- a shaft extending axially relative to said first means;
- at least one of the outer member and the inner unit comprising means engageable with the mold to cause the apparatus to rotate with the mold;
- the outer member and the inner unit being so constructed and interrelated that at least one of the outer member and the inner unit can be moved axially relative to the other in order to progressively open the cavity to allow radial release of particulate material held by the cavity when the mold and the apparatus are rotating; and means for accomplishing such relative axial movement while the mold and the apparatus are rotating.
- 2. The combination defined in claim 1, wherein
- the apparatus is operative to establish a ring of particulate material when the axial length of the ring is small in comparison to the axial dimension of the mold;
- the outer member is a rotor and the outer surface thereof includes an axially directed portion shaped and dimensioned to be fitted against an end portion of the mold to locate the rotor relative to the mold and impart rotation from the mold to the rotor about an axis coincident with the axis of rotation of the mold, the rotor also having
- an elongated annular inner surface capable of cooperating with the inner unit to define the cavity, and
- a through bore centered on the axis of rotation of the rotor and through which the shaft of the inner unit extends;
- the shaft has a first end portion adjacent the end of the cavity which leads as the rotor is inserted into the cavity, and a second end portion spaced axially from the rotor on the side opposite the cavity, the shaft being free for axial movement relative to the rotor;
- the inner unit comprises a carrier member fixed to the first end portion of the shaft and having at least one outwardly opening recess within which particulate material can be disposed,
- the carrier member having an outer surface which is interrupted by the at least one outwardly opening recess and is slidably embraced by the annular inner surface of the rotor,
- the carrier member being movable axially relative to the rotor between a first position, in which the at least one outwardly opening recess is closed by the inner surface of the rotor, and a second position, in which the at least one outwardly opening recess is open for release of the particulate material; and
- the means for accomplishing relative movement of the outer member and the inner unit includes at least one manipulator carried by the shaft on the side of the rotor opposite the cavity and by which the shaft can be moved axially to shift the carrier member from its first position to its second position.
- 3. The combination defined in claim 2, wherein
- the rotor comprises a body member which includes
- said axially directed outer surface portion,
- said elongated annular inner surface, and
- a transverse portion located at the end of said elongated annular inner surface which is opposite said axially directed portion and through which the through bore extends.
- 4. The combination defined in claim 2, wherein
- the axially directed outer surface portion of the rotor is frustoconical and tapers inwardly and away from the body member,
- the frustoconical surface portion being of such dimension as to be engageably with the annular corner defined by an internal surface of the mold and an end surface of the mold.
- 5. The combination defined in claim 2, wherein
- the elongated annular inner surface of the rotor is a right circular cylindrical surface; and
- the outer surface of the carrier member is a right circular cylindrical surface.
- 6. The combination defined in claim 2, wherein
- the at least one outwardly opening recess of the carrier member comprises a transverse annular outwardly opening groove.
- 7. The combination defined in claim 2, wherein
- the tool is for establishing an end ring;
- the at least one outwardly opening recess of the carrier member is a transverse annular groove; and
- the relative axial dimensions of the carrier member and the elongated annular inner surface are such that, when the carrier member is in its first position, the elongated annular inner surface closes the groove in the carrier member.
- 8. The combination defined in claim 7, wherein
- the axial dimension of the carrier member and the location of the groove relative to the length of the carrier member are such that a substantial portion of the length of the carrier member is still embraced by the elongated annular surface when the carrier member is in its second position.
- 9. The combination defined in claim 7, wherein
- the carrier member includes a tip portion which projects away from the rotor body and it tapered to facilitate insertion of the carrier member into a mass of particulate refractory material to fill the groove when the carrier member is in its second position.
- 10. The combination defined in claim 2, wherein
- the at least one manipulator comprises two handle members arranged end-to-end and slidably embracing the shaft,
- the one of the handle members most distant from the rotor being restrained against axial movement relative to the shaft,
- the shaft being free to move axially relative to the other of the handle members.
- 11. The combination defined in claim 2, wherein
- the rotor comprises a tubular member projecting away from said axially directed portion in a direction such that, when said axially directed portion of the rotor is fitted against an end of the mold, the tubular member projects into the mold,
- the inner surface of the tubular member constituting said elongated annular inner surface.
- 12. The combination defined in claim 11, wherein
- the carrier member comprises an elongated member slidably embraced by the tubular member;
- the tubular member of the rotor has at least one aperture spaced from the axially directed portion of the rotor by a predetermined distance; and
- the carrier member has a transverse annular outwardly opening recess so located as to be closed by the tubular member when the carrier member is in a position other than its second position and to be radially aligned with said at least one aperture when the carrier member is in its second position.
- 13. The combination defined in claim 2, wherein
- the elongated annular cavity-defining surface terminates within the mold when the axially directed portion of the rotor is fitted against an end of the mold;
- the at least one outwardly opening recess of the carrier member includes a transverse annular outwardly directed groove.
- the side wall of the groove most distant from the rotor intersecting the outer surface of the carrier member to define a sharp annular corner which is directed generally toward the rotor and which is exposed when the carrier member is in its second position,
- the arrangement of the annular cavity defining surface, the carrier member and said sharp annular corner being such that, when more particulate material than is required for the ring to be established has been applied to the mold from the groove of the carrier member, axial withdrawal of the carrier member will cause said sharp annular shoulder to control the inner surface of the establisehd ring to cylindrical form of a predetermined diameter.
- 14. The combination defined in claim 1, wherein
- the apparatus is operative to establish a continuous layer over at least a major portion of the length of the active surface of the mold;
- the outer member is tubular, is longer than the active surface of the mold, and has an open end to be inserted into the mold;
- the inner unit comprises two transverse plates carried by the shaft and dimensioned for slidable engagement with the inner surface of the outer member; and
- the means for accomplishing relative axial movement between the outer member and the inner unit is constructed and arranged to move the outer member axially relative to the inner unit.
- 15. The combination defined in claim 14, wherein
- the means for accomplishing relative axial movement between the outer member and the inner unit comprises a pressure fluid operated rectilinear motor having a cylinder and a piston rod,
- the shaft of the inner unit constituting an extension of the piston rod.
- 16. The combination defined in claim 15, wherein
- the apparatus is adapted to apply the layer to the active surface of a vertical centrifugal casting mold,
- the shaft has an end adapted to engage the bottom of the mold; and
- the tubular outer member is connected to the cylinder of the rectilinear motor,
- the tubular outer member being movable relative to the inner unit by moving the cylinder of the rectilinear motor relative to the piston shaft.
- 17. The combination defined in claim 16 and further comprising
- a tubular member surrounding the cylinder of the rectilinear motor and secured thereto; and
- clutch means disposed above the mold and adapted to selectively engage said tubular member, to hold the cylinder of the rectilinear motor in an elevated position, and to release said tubular member, to allow the tubular member to move vertically with the cylinder of the rectilinear motor.
- 18. The method for establishing a layer of particulate material on at least a portion of the active surface of a rotatable centrifugal casting mold, comprising
- confining a quantity of the particulate material in a closed cavity with the particulate material in such condition as to be projectable under centrifugal force;
- rotating the mold at a rate adequate to densify the layer of said particulate material when a layer of that material has been established on the active surface of the mold;
- introducing the cavity into the mold and rotating the cavity at substantially the same rate as the mold, that rate being adequate to apply a substantial centrifugal force to the particulate material confined in the activity;
- while continuing to rotate the mold and cavity at such rates, progressively opening the cavity to release the particulate material centrifugally from the cavity with the centrifugal force then applying the released particulate material to the active surface of the mold in the form of a layer; and
- then withdrawing the cavity from the mold.
- 19. The method defined in claim 18, wherein
- the cavity is defined by an inner member having spaced walls, which form the ends of the cavity, and an outer member which embraces the walls;
- the step of inserting the cavity into the mold is carried out to position the cavity so that the walls and the outer member are centered on the central axis of the mold; and
- the step of progressively opening the cavity is carried out by accomplishing relative axial movement between said inner and outer members.
- 20. The method according to claim 19, wherein
- said outer member has an end edge which becomes spaced from one of said walls when the step of accomplishing relative axial movement between said inner and outer members is carried out; and
- the particulate material flows outwardly over said end edge during release of the particulate material from the cavity.
- 21. The method according to claim 20, wherein
- the particulate material is applied to the active surface of the mold to form an end ring;
- the step of introducing the cavity into the mold includes the step of placing a portion of said outer member in engagement with the mold; and
- the step of accomplishing relative movement between said inner and outer members is carried out by moving said inner member inwardly and axially of the mold while said outer member is held against axial movement because of engagement with the mold.
- 22. The method according to claim 19, wherein
- the particulate material is applied to the active surface of the mold to form a ring spaced from both ends of the mold;
- said outer member has an annular series of apertures located where the ring to be formed when the cavity has been inserted into the mold and said apertures and closed by said inner member until the step of accomplishing relative axial movement between said inner and outer members is carried out.
- 23. The method according to claim 22 and further comprising
- first establishing on the active surface of the mold a preliminary lining of refractory material; and
- then establishing the ring in a predetermined location relative to the preliminary lining.
- 24. The method according to claim 18, wherein
- the method is carried out to apply the layer to a major portion of the length of the active surface of the mold; and
- the step of progressively opening the cavity to release the particulate material is accomplished by moving an outer tubular cavity-defining member axially relative to an inner cavity-defining member while holding the inner member against axial movement.
- 25. The method according to claim 19, wherein
- the method is carried out to apply the layer to the active surface of a vertical mold;
- the cavity is inserted into the mold in such fashion that the inner member engages the bottom wall of the mold; and
- the step of progressively opening the cavity is carried out by withdrawing the outer member from the mold while holding the inner member in engagement with the bottom wall of the mold.
- 26. The method according to claim 18, wherein
- the cavity is defined by an inner member and an outer member;
- the step of progressively opening the cavity is carried out by accomplishing relative axial movement between said inner and outer member;
- the cavity is withdrawn from the mold after completion of the layer of particulate material; and
- then, with the mold still rotating, contouring the lining to final size and shape while conveying excess particulate material, dislodged from the layer by the contouring step, upwardly and out of the mold.
RELATED APPLICATION
This application is a continuation-in-part of my copending application Ser. No. 534,610, filed Sept. 22, 1983 and now abandoned.
US Referenced Citations (1)
Number |
Name |
Date |
Kind |
4124056 |
Noble |
Nov 1978 |
|