Claims
- 1. In a metal molding device,
- a coolant box, inside surfaces of which define the relatively top, bottom and side walls of an enclosed chamber adapted for the flow of liquid coolant through the box,
- the top of said chamber having an opening therein on a vertical axis of the box,
- a top opening mold cavity defining member,
- means on the bottom of the box whereby the mold cavity defining member is insertable in the chamber on the axis,
- support means adjacent the bottom of the chamber whereby the member is supportable in the box in a telescoping assembly in which the top opening of the member is co-axial with the top opening of the chamber to enable molten metal to be introduced to the cavity of the member through the respective top openings of the chamber and the member,
- said mold cavity defining member having a greater outer peripheral diameter transverse the axis than the top opening of said member,
- first means on the mold cavity defining member and the box forming a first line of engagement between the member and the defining surfaces of the chamber in which a top surface of the member about the opening thereof engages the top of the chamber about the opening thereof in a first horizontal plane of the box,
- second means on the mold cavity defining member and the box forming a second line of engagement between the member and the defining surfaces of the chamber about the aforesaid top surface of the member, said second line of engagement being formed in a second horizontal plane of the box which is spaced below the aforesaid first horizontal plane of the box by a vertical gap, and being adapted to forestall liquid coolant from entering the cavity of the member along the top surface thereof,
- and means associated with the box for discharging liquid coolant from the chamber, said coolant discharge means being disposed so that any liquid coolant which leaks into the gap through the second line of engagement is discharged from the gap at a level below the aforesaid first horizontal plane of the box and to a point outside of the chamber at which the leakage cannot reach the cavity of the member along the aforesaid top surface thereof.
- 2. The molding device according to claim 1 wherein the gap opens to the outside of the chamber at a level below the aforesaid first horizontal plane of the box and the leakage discharge means are cionnected with the gap at the opening thereof to discharge the leakage to a point outside of the chamber.
- 3. The device according to claim 1 wherein the top surface of the mold cavity defining member engages the top of the chamber along a line disposed in the plane of the top opening of the member.
- 4. The device according to claim 1 wherein the top surface of the member engages the top of the chamber along a line disposed in the plane of the top opening of the member, as well as along a line disposed in a plane spaced below the aforementioned plane of the top opening of the member, and the vertical gap between the two lines of engagement opens into a sump disposed peripherally outwardly of the member and opening into the ambient surroundings of the box so that any coolant which rises above the relatively lower plane is discharged from the chamber before the coolant can reach the plane of the opening in the member.
- 5. The device according to claim 4 wherein the upper end surface of the member about the edge of the top opening therein abuts the top of the chamber, and there is a step in the top of the member spaced peripherally outwardly from the top opening thereof, which abuts a mutually opposing step in the top of the chamber in the plane spaced below the plane of the opening in the member.
- 6. The device according to claim 5 wherein one of the steps opens into a recess in the top of the box, which opens in turn into a drain line that discharges through an outlet in the bottom of the box.
- 7. The device according to claim 6 wherein the drain line passes through a portion of the chamber.
- 8. The device according to claim 7 wherein there is a groove in the top of the box which opens into the step in the top of the chamber, and discharges to the bottom of the box through a hollow post interposed between the top and bottom of the box in the chamber.
- 9. The device according to claim 1 further comprising hollow post-like means upstanding in the chamber between the top and bottom of the box, said post-like means opening into the ambient surroundings of the box at the bottom thereof and communicating with the gap in the chamber.
- 10. The device according to claim 1 wherein the box has a recess in the top thereof which communicates with the vertical gap in the chamber.
- 11. The device according to claim 1 wherein the box has a step in the top surface of the chamber and the gap in the chamber communicates with the ambient surroundings of the box at the step.
- 12. The molding device according to claim 1 wherein the member terminates at the inner peripheral edge of the top opening of the chamber and engages the walls of the chamber to prevent coolant from leaking into the cavity of the member through the top opening thereof.
- 13. The molding device according to claim 1 wherein the second line of engagement has a greater diameter in the chamber than the top opening thereof.
- 14. The device according to claim 1 wherein the gap has a pressure which is adapted to prevent chamber coolant from leaking into the top opening of the member.
- 15. The device according to claim 14 wherein the gap has a pressure which is adapted so that any coolant that leaks through the second line of engagement is discharged to a point outside of the chamber before the coolant can reach the top opening of the member.
- 16. The device according to claim 15 wherein the gap opens into a sump below the top opening of the member and the pressure in the sump is adapted so that the leakage coolant will discharge into it by gravity flow.
- 17. The device according to claim 16 wherein the sump opens to the ambient surroundings of the box so that the pressure in the gap corresponds thereto.
- 18. The device according to claim 16 wherein the sump is disposed about the periphery of the gap.
- 19. The device according to claim 18 wherein the sump opens to the ambient surroundings of the box at a point between the gap and the periphery of the box.
- 20. The device according to claim 19 wherein the sump opens into the bottom of the box.
- 21. The device according to claim 1 wherein has a bottom opening therein through which the molded work product can emerge from the box at the bottom thereof.
- 22. The device according to claim 21 wherein there is an aperture about the bottom opening of the member whereby the chamber coolant can discharge onto the emerging work product during the molding operation.
- 23. The device according to claim 22 wherein the top and bottom openings of the member are coaxial with the top and bottom openings of the chamber, and the discharge aperture is formed between the body of the member and the bottom opening of the chamber.
- 24. The device according to claim 22 wherein the member has substantially the same diameter as the bottom opening of the chamber, and there are means in the bottom portion of the member which communicate with the chamber of the box at a point above the bottom opening therein to form the discharge aperture.
- 25. The device according to claim 24 wherein the member has a circumferential groove about the waist portion thereof, and an annular rabbet at the bottom thereof which is interconnected with the groove by a series of apertures through which the chamber coolant can discharge onto the emerging work product from the groove.
- 26. The device according to claim 25 wherein the member has means about the groove to meter the chamber coolant into the same.
- 27. The device according to claim 1 wherein the mold cavity defining member is annular, the chamber has a bottom opening therein on the aforesaid vertical axis of the box through which the mold cavity defining member is insertable in the chamber, and there are means on the member within the diameter of the bottom opening of the chamber through which liquid coolant in the chamber is metered onto the work product emerging from the member at the bottom thereof.
- 28. The device according to claim 1 wherein the member is supported on the support means adjacent the bottom of the box.
- 29. The device according to claim 28 wherein the support means are connected with the box.
- 30. The device according to claim 28 wherein the member is annular, the chamber has a bottom opening therein through which the molded work product can emerge from the box, and the support means are disposed adjacent the periphery of the member.
- 31. The device according to claim 30 wherein the support means are cantilevered peripherally inwardly from the edge of the box at the bottom opening thereof.
- 32. The device according to claim 31 wherein the support means are formed by an annular plate which is secured to the outer peripheral edge portion of the box at the bottom opening thereof, and cantilevered peripherally inwardly from the edge so as to engage the annular member about the bottom opening thereof.
- 33. The device according to claim 28 wherein there is an aperture about the bottom opening of the member through which the chamber coolant can discharge onto the emerging work product during the molding operation, and the support means form the aperture.
- 34. The device according to claim 33 wherein the support means cooperate with the bottom portion of the member in forming an annular slot through which the coolant can discharge onto the emerging work product.
- 35. The device according to claim 33, wherein the member has a subchamber formed about the periphery thereof, there are means in the periphery of the member to meter coolant into the subchamber from the chamber of the box, and the aperture is formed in the bottom portion of the member to discharge the subchamber coolant onto the emerging work product during the molding operation.
- 36. The molding device according to claim 1 further comprising means whereby the leakage can be detected at the outside of the box.
- 37. The device according to claim 36 wherein the leakage detection means are operable so that the leakage can be detected adjacent the bottom of the box.
- 38. The device according to claim 36 wherein the leakage detection means are operable so that the leakage can be detected adjacent the top of the box.
- 39. The device according to claim 1 wherein a fluid sealant ring is interposed in the second line of engagement between the member and the defining surfaces of the chamber, and in the first line of engagement between the top surface of the member and the top of the chamber.
- 40. The device according to claim 1 further comprising scupper-like means in the top opening of the chamber to enable molten metal to be charged into the cavity of the member from a point above the top of the box.
- 41. The device according to claim 40 further comprising a hot top on the top of the box having the scupper-like means depending therefrom.
- 42. The device according to claim 41 wherein the scupper-like means are inserted in the top opening of the chamber from the hot top.
- 43. The device according to claim 1 further comprising means for charging molten metal into the cavity of the member through the respective top openings of the chamber and the member.
- 44. The device according to claim 43 wherein the molten metal charging means include an assembly of molten metal carrier means, one of which is superposed above the top opening of the chamber and individually removable from the assembly when desired.
- 45. The device according to claim 44 wherein the respective carrier means are supported on top of the box in the manner of a hot top, and the one carrier means has a scupper-like element depending therefrom in the top opening of the chamber.
- 46. The device according to claim 45 wherein the molten metal carrier means are disposed end to end of one another in the assembly and are secured to the top of the box.
- 47. The device according to claim 46 wherein the carrier means take the form of troughed carrier blocks which are clamped to the top of the box.
- 48. The device according to claim 43 wherein the leakage discharge means discharges the leakage onto the top of the box at a location spaced apart from the top opening of the chamber, and the molten metal charging means are superposed above the top opening of the chamber to terminate in the space between said location and the top opening of the chamber so that the leakage is visually discernable at said location from points thereabove.
- 49. The device according to claim 1 wherein there is an opening in the bottom of the chamber on the axis through which the mold cavity defining member is insertable in the chamber.
- 50. In a metal molding device,
- a coolant box, inside surfaces of which define the relatively top, bottom and side walls of an enclosed chamber adapted for the flow of liquid coolant through the box,
- the top and bottom of said chamber having openings therein on a vertical axis of the box, the bottom of which openings is greater in diameter than the top opening of said chamber,
- support means adjacent the bottom of the chamber for supporting a top opening mold cavity defining member insertable in the chamber on the axis through the bottom opening thereof in a telescoping assembly in which the top opening of the member is co-axial with the top opening of the chamber to enable molten metal to be introduced to the cavity of the member through the respective top openings of the chamber and the member,
- said mold cavity defining member having a greater outer peripheral diameter transverse the axis than the top opening of said chamber,
- first means at the top of the chamber for engaging a top surface of the member about the opening thereof to form a first line of engagement between the member and the defining surfaces of the chamber in a first horizontal plane of the box,
- second means at the top of the chamber defining a step which is spaced peripherally outwardly from the top opening of the chamber for forming a second line of engagement between the member and the defining surfaces of the chamber, said second line of engagement being formed in a second horizontal plane of the box which is spaced below the aforesaid first horizontal plane of the box by a vertical gap, to forestall liquid coolant from entering the cavity of the member along the top surface thereof,
- means defining a sump disposed outside the chamber below the aforesaid first horizontal plane of the box and opening into the chamber at a point in the gap adjacent the step so that liquid coolant which leaks into the gap through the second line of engagement is discharged into the sump at a level below the aforesaid first horizontal plane of the box,
- and means for discharging the leakage coolant from the sump to a point outside of the chamber at which the leakage cannot reach the cavity of the member along the aforesaid top surface thereof.
- 51. The device according to claim 50 wherein the sump opens to the ambient surroundings of the box so that the pressure in the gap corresponds thereto.
- 52. The device according to claim 51 wherein the sump opens to the ambient surroundings of the box at a point between the top opening of the chamber and the periphery of the box.
- 53. The device according to claim 50 wherein the sump opens into the bottom of the box.
- 54. The device according to claim 50 wherein the step opens into a recess in the top of the box.
- 55. The device according to claim 50 wherein the recess opens in turn into a drain line that discharges through an outlet in the bottom of the box.
- 56. The device according to claim 55 wherein the drain line passes through a portion of the chamber.
- 57. The device according to claim 50 wherein there is a groove in the top of the box which opens into the step in the top of the chamber, and discharges to the bottom of the box through a hollow post interposed between the top and bottom of the box in the chamber.
- 58. The device according to claim 50 further comprising means for charging molten metal into the cavity of the member through the respective top openings of the chamber and the member.
- 59. The device according to claim 58 wherein the leakage discharge means discharges the leakage onto the top of the box at a location spaced apart from the top opening of the chamber, and the molten metal charging means are superposed above the top opening of the chamber to terminate in the space between said location and the top opening of the chamber so that leakage is visually discernable at said location from points thereabove.
- 60. The device according to claim 58 wherein the chamber has a plurality of top openings therein for a corresponding number of top-opening mold cavity defining members insertable in the chamber through corresponding bottom openings thereof, and the molten metal charging means include an assembly of molten metal carrier means, certain of which are superposed above the respective top openings of the chamber and are individually removable from the assembly when desired.
- 61. The device according to claim 60 wherein the respective carrier means are supported on top of the box in the manner of a hot top, and those superposed above the top openings of the chamber have scupper-like elements depending therefrom in the top openings.
- 62. The device according to claim 61 wherein the molten metal carrier means are disposed end to end of one another in the assembly thereof, and are secured to the top of the box.
- 63. The device according to claim 62 wherein the carrier means take the form of troughed carrier blocks which are clamped to the top of the box.
- 64. The device according to claim 50 wherein the aforesaid second line of engagement is disposed opposite the bottom opening of the chamber.
- 65. The device according to claim 50 further comprising means whereby any leakage through the second line of engagement can be detected at the outside of the box.
- 66. The molding device according to claim 50 wherein there are hollow post-like means upstanding in the chamber between the top and bottom of the box, the hollow of said post-like means opening into the sump and communicating with the ambient surroundings of the box at the bottom thereof.
- 67. The device according to claim 66 wherein the sump takes the form of a recess in the top of the box which interconnects the gap in the chamber with the hollow of the post-like means.
- 68. The device according to claim 67 wherein the recess takes the form of a groove in the top of the box.
- 69. The device according to claim 50 wherein the step is formed by an annular rabbet in the top of the chamber.
Parent Case Info
This Application is a continuation of Application Ser. No. 258,520, filed Apr. 29, 1981 under the title MOLDING DEVICE AND METHOD OF FORMING THE SAME now abandoned.
US Referenced Citations (2)
Non-Patent Literature Citations (2)
Entry |
Attached copy of schematic representation of "Hot Top" and Conventional Pour casting devices, taken from brochure published by Wagstaff Engineering, Inc., Spokane, Washington, entitled Extrusion Billet Casting. |
Attached copy of Section B-B, Engineering drawing S-1424 dated Jan. 16, 1980, M and T Manufacturing Company, Grand Rapids, Michigan, entitled 36 Way Hot Top Distribution Pan. |
Continuations (1)
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Number |
Date |
Country |
Parent |
258520 |
Apr 1981 |
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