Spin cast end cap assembly with internal flyweights

Information

  • Patent Grant
  • 6595268
  • Patent Number
    6,595,268
  • Date Filed
    Tuesday, February 29, 2000
    24 years ago
  • Date Issued
    Tuesday, July 22, 2003
    21 years ago
Abstract
A spin cast die assembly includes a casing, an insert and an end cap assembly for retaining the insert against an annular shoulder within the casing. The end cap assembly has a mounting ring attached an end of the casing. The mounting ring receives a flyweight ring which engages an end of the insert and which pivotally supports a plurality of flyweight members which are mounted radially internally with respect to the mounting ring. The mounting ring has an annular flyweight engagement surface which faces generally radially inwardly and towards the shoulder. As the assembly is spun, the inner ends of the flyweight members pivot radially outwardly. The flyweight members thereby cooperate with the flyweight engagement surfaces of the mounting ring to cause the flyweight ring to move axially towards the insert and thereby force the insert against the shoulder.
Description




BACKGROUND OF THE INVENTION




The invention relates to spin casting die assemblies, and more particularly, to end caps for spin cast die assemblies which have inserts which must be axially retained during the spin casting process.




There are known spin cast die assemblies which have a hollow cylindrical outer housing or casing in which a hollow cylindrical insert is inserted. Such an insert must be retained within the casing and held axially against an annular shoulder in the casing. To maintain the insert against the casing shoulder end cap assemblies have been attached to the end of the casing. One type of end cap assembly, which has been in use for around 50 years, includes a locking ring with exterior ramped flanges and an outer cap which is bolted onto to the end of the casing. The outer cap has cam surfaces which cooperate with the flanges to cause the locking ring to move axially inwardly to clamp the insert in place as the locking ring is rotated. To rotate the ring into and out of position requires an unpowered manually operated steering wheel unit (for small die assemblies) or hydraulically operated hammering/ratcheting mechanism (for large die assemblies), and the locking ring must be capable of withstanding high temperatures. The locking rings have to be replaced often as a result of being hammered into and out of place.




Another type of end cap is bolted onto the end of the casing and includes external flyweights. As the assembly is spun, the flyweights pivot and urge an inner ring axially inwardly towards the insert. But, such external flyweights can interfere with the spin cast die assemblies being rolled from one location to another, and can prevent such an assembly from being used in a spinner cabinet.




SUMMARY OF THE INVENTION




Accordingly, an object of this invention is to provide a spin cast die assembly with an end cap mechanism which does not have to be hydraulically hammered into and out of place.




A further object of the invention is to provide such a spin cast die assembly with an end cap mechanism which can withstand high temperatures.




Another object of the invention is to provide such a spin cast die assembly with an end cap mechanism which does not have external parts, such as flyweights, which interfere with movement of the spin cast die assemblies or which prevent use of the assembly in spinner cabinet.




These and other objects are achieved by the present invention, wherein a spin cast die assembly includes a casing, an insert and an end cap assembly for retaining the insert against an annular shoulder within the casing. The end cap assembly has a mounting ring attached to an end of the casing. The mounting ring receives a flyweight ring which engages an end of the insert and which pivotally supports a plurality of flyweight members which are mounted radially internally with respect to the mounting ring. The mounting ring has an annular flyweight engagement surface which faces generally radially inwardly and towards the shoulder. As the assembly is spun, the inner ends of the flyweight members pivot radially outwardly. The flyweight members thereby cooperate with the flyweight engagement surfaces of the mounting ring to cause the flyweight rings to move axially towards the insert and thereby force the insert against the shoulder.











BRIEF DESCRIPTION OF THE DRAWINGS





FIG. 1

is an end view of an end cap assembly according to the present invention;





FIG. 2

is a sectional view along lines


2





2


of

FIG. 1

;





FIG. 3

is a partial sectional view of an alternate embodiment of an end cap assembly together with an insertion and removal tool;





FIG. 4

is a partial sectional view of another alternate embodiment of end cap assembly together with an insertion and removal tool;





FIG. 5

is an end view of the insertion and removal tool of FIG.


4


.











DETAILED DESCRIPTION




Referring to

FIGS. 1 and 2

, a spin cast die assembly


10


includes a hollow cylindrical outer housing or casing


12


which forms an interior, annular, axially facing shoulder


14


. A hollow cylindrical insert


16


is inserted into the casing


12


. The insert


16


has a larger diameter main body


18


and a smaller diameter neck


20


. An end cap assembly


22


includes a hollow cylindrical flyweight member or inner ring


24


, to which are pivotally mounted a plurality, preferably three, flyweight members


26


, and a mounting member or ring


28


. The mounting ring


28


has an inner end


29


which abuts against the casing


12


when the mounting ring


28


is attached to the end of the casing


12


by a plurality of bolts (not shown) which extend through axially extending bolt holes


32


. The mounting ring


28


receives the flyweight ring


24


, and the ring


24


engages an end of the insert


16


. The mounting ring


28


has a hollow cylindrical body


34


which forms an annular flyweight engagement surface


36


. As seen on edge in

FIG. 2

, the surface


36


is frustoconical, faces generally radially inwardly and axially towards the inner end


29


and towards the shoulder


14


, and extends from an outer edge


38


radially inwardly and axially away from the shoulder


14


to an inner edge


40


.




The ring


24


has a plurality, (preferably three) three cutout portions or slots


42


, each of which receives a corresponding flyweight member


26


. Each flyweight


26


is located radially internally with respect to the mounting ring


28


, and has a main body


44


with a mounting bore


46


at its axially outer end


48


. Each flyweight


26


is pivotally supported on a pin


43


which extends through the mounting bore


46


and which is supported by pin supports


45


and


47


on opposite sides of the flyweight member


26


. Each flyweight


26


has an arm


50


which projects generally radially outwardly from the axially inner end


52


of body


44


. A ring engagement surface


54


is formed on the arm


50


for engaging the flyweight engagement surface


36


. As seen on edge in

FIG. 2

, the surface


54


faces generally radially outwardly and away from the shoulder


14


.




Preferably, the flyweight support ring


24


should meet the end of the insert


16


to form an entrance tube to the center of the die assembly


10


so that no liquid metal can splash into a loose seam and build up over time. The inner end of the flyweight support ring


24


should loosely surround, (not necessarily completely) the neck


20


of the insert


16


, in order to maintain the alignment of the endcap assembly


22


.




As the assembly


22


is spun, the flyweight members


26


pivot radially outwardly. The ring engagement surfaces


54


slidably engage the flyweight engagement surface


36


, and this causes the flyweights


26


and the ring


24


to move axially inwardly towards the insert


16


and thereby forces or holds the insert against the shoulder


14


.




This end cap assembly


22


does not have to be hydraulically hammered into and out of place and it can withstand high temperatures. Also, the flyweights


26


do not project radially outwardly from the assembly, and therefore, they do not interfere with movement of the spin cast die assemblies


10


and do not prevent use of the assembly


10


in a spinner cabinet.




An alternative embodiment is shown in

FIG. 3

, wherein each flyweight member


70


includes a tool engaging portion for engaging a tool


76


, and each flyweight member


70


cooperates with the tool


76


to pivot out of engagement with the mounting ring


28


as the tool


76


is moved towards the insert


16


. Preferably, each flyweight member


70


includes an outer arm


72


which projects generally axially away from its inner arm


74


. An installing and removing tool


76


includes a hollow tapered cylindrical body


78


which forms a frustoconical surface


80


which engages the ends of arms


72


. As the tool


76


is moved towards the end cap assembly


22


, the arms


72


are forced radially outwardly, thus pivoting the inner arms


74


radially inwardly. This causes the flyweight members


70


to be disengaged from the mounting ring


28


and allows the flyweight ring


24


and the flyweight members


70


to be axially withdrawn from or inserted into the assembly.




Alternative embodiment is shown in

FIGS. 4 and 5

, wherein each flyweight member


90


includes a tool engaging arm


92


for engaging a tool


94


, and each flyweight member


90


cooperates with the tool to pivot out of engagement with the mounting ring


28


as the tool


94


is rotated about its central axis. The tool


94


includes a hollow cylindrical body


96


having a plurality of tabs


98


projecting radially therefrom. As the tool


94


is rotated, the tabs


98


engage and force the arms


92


radially outwardly, thus pivoting the inner part of the flyweight member


90


radially inwardly. This causes the flyweight members


90


to be disengaged from the mounting ring


28


and allows the flyweight ring


24


and the flyweight members


90


to be axially withdrawn from or inserted into the assembly.




With all the above described embodiments, as the assembly is spun, the inner ends of the flyweight members pivot radially outwardly. The flyweight members thereby cooperate with the flyweight engagement surfaces of the mounting rings to cause the flyweight rings to move axially towards the insert


16


and thereby forcing the insert against the shoulder


14


.




While the present invention has been described in conjunction with a specific embodiment, it is understood that many alternatives, modifications and variations will be apparent to those skilled in the art in light of the foregoing description. Accordingly, this invention is intended to embrace all such alternatives, modifications and variations which fall within the spirit and scope of the appended claims.



Claims
  • 1. An end cap assembly for retaining an insert within a casing of a spin cast die assembly which rotates about a rotation axis, the end cap assembly, comprising:a mounting member for attaching to an end of the casing; a flyweight ring engaging an end of the insert; and a plurality of flyweight members pivotally mounted on the flyweight ring, the flyweight members being mounted radially internally with respect to the mounting member, the flyweight members pivoting into engagement with the mounting member when the assembly is spun and holding the insert within the casing, each flyweight member being spaced apart at all times from the insert when the assembly is being rotated, and each flyweight member operating to urge axially inwardly, in a direction parallel to said rotation axis, both the flyweight ring and the insert during rotation of the assembly.
  • 2. The spin cast die assembly of claim 1, wherein:a flyweight support member is received by the mounting member and the flyweight members are pivotally supported on the flyweight support member, the mounting member having a flyweight engagement surface; and each flyweight having a mounting member engagement surface formed on an arm thereof for operatively engaging the flyweight engagement surface.
  • 3. The spin cast die assembly of claim 2, wherein:the mounting member has an inner end for abutting against the casing, and the flyweight engagement surface faces generally radially inwardly and axially towards said inner end.
  • 4. The spin cast die assembly of claim 2, wherein:the flyweight engagement surface is frustoconical and faces generally radially inwardly.
  • 5. The spin cast die assembly of claim 2, wherein:the mounting member has an inner end for abutting against the casing, and the flyweight engagement surface faces generally radially outwardly and axially towards said inner end.
  • 6. The spin cast die assembly of claim 1, wherein:each flyweight member includes a tool engaging portion for engaging a tool, each flyweight member cooperating with said tool to pivot out of engagement with the mounting member as the tool is moved with respect to the mounting member.
  • 7. The spin cast die assembly of claim 6, wherein:each flyweight member includes an axially outer arm and an axially inner arm, the outer arm being engageable with the tool.
  • 8. The spin cast die assembly of claim 1, wherein:each flyweight member includes a tool engaging portion for engaging a tool, each flyweight member cooperating with said tool to pivot out of engagement with the mounting member as the tool is rotated with respect to the mounting member.
  • 9. The spin cast die assembly of claim 1, wherein:each flyweight member includes a tool engaging portion for engaging a tool, the tool comprising a cylindrical body having a plurality of tabs projecting outwardly therefrom, the tabs engaging the flyweight members and pivoting the flyweight members out of engagement with the mounting member upon rotation of the tool, so that the flyweight support member and the flyweight members can be axially withdrawn from or inserted into the assembly.
  • 10. The end cap assembly of claim 1, wherein:a flyweight support member is received by the mounting member, and the flyweight members are pivotally coupled to the flyweight support member.
  • 11. An end cap assembly for retaining an insert within a casing of a spin cast die assembly which rotates about a rotation axis, the end cap assembly having a mounting member for attaching to an end of the casing and a plurality of flyweight members which pivot when the assembly is spun and hold the insert within the casing, characterized by:a flyweight support member received by the mounting member, the flyweight members being pivotally supported on the flyweight support member, and the flyweight members being located radially internally with respect to the mounting member and being engagable with an internal surface of the mounting member, flyweight members urging the flyweight support member and the insert axially inwardly in a direction parallel to said rotation axis when the assembly is spun.
  • 12. The end cap assembly of claim 11, wherein:a portion of the mounting member forms a flyweight engagement surface; and each flyweight having a mounting member engagement surface formed on an arm thereof for operatively engaging the flyweight engagement surface.
  • 13. The end cap assembly of claim 11, wherein:the flyweight engagement surface extends from an outer edge radially inwardly and axially away from the shoulder to an inner edge.
  • 14. The end cap assembly of claim 11, wherein:the flyweight engagement surface faces generally radially inwardly and towards the shoulder.
  • 15. The end cap assembly of claim 11, wherein:each flyweight member includes a tool engaging portion for engaging a tool, and cooperating with said tool to pivot out of engagement with the mounting ring as the tool is moved with respect to the insert.
  • 16. The spin cast die assembly of claim 11, wherein:each flyweight member includes a tool engaging portion for engaging a tool, each flyweight member cooperating with said tool to pivot out of engagement with the mounting member as the tool is rotated with respect to the mounting member.
US Referenced Citations (8)
Number Name Date Kind
1485860 Ladd Mar 1924 A
1486544 Rathbone Mar 1924 A
1489036 Ladd Apr 1924 A
1583576 Coburn May 1926 A
2267010 Anderson Dec 1941 A
2370953 Greenberg Mar 1945 A
3004314 Beyer Oct 1961 A
4901782 Kazuhiro Feb 1990 A
Foreign Referenced Citations (3)
Number Date Country
767244 May 1952 DE
2265098 Mar 1992 GB
57127565 Aug 1982 JP
Non-Patent Literature Citations (2)
Entry
“Carousel Spinner”, Dana Corp., 1994.
“JD Locking Ring”, Deere & Company, (date unknown).