Vertical shaft processor

US 5,210,962 A
Filed: 09/13/1991
Issued: 05/18/1993
Est. Priority Date: 09/13/1991
Status: Expired due to Term

First Claim

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1. A vertical shaft processor comprising in combination a substantially cylindrical shell having a central vertical longitudinal axis and an exhaust port in an upper portion thereof,feed means at the top of said shell for introducing particulate material to the shell that is to flow by gravity therethrough and be treated by fluids therein, said feed means including gate means to inhibit the release of fluids while permitting said particulate material to flow by gravity through said shell,a material separator mounted in said shell beneath said feed means to receive particulate material from said feed means, said material separator having a downwardly divergent wall onto which said particulate material is deposited, said wall having slots formed therein and a peripheral edge so that some particulate material can pass through said slots and drop beneath said separator while other particulate material can pass over said peripheral edge and drop to the side of said material separator, andremoval grate means forming a lower wall of said shell, said removal grate means including a horizontal bottom plate having a circular discharge opening therethrough and defining a concentric ring shaped discharge opening, a closed loop pusher bar disposed in adjacent relationship with the top surface of said bottom plate, a plurality of power cylinders disposed in oircumferentially spaced relationship around said pusher bar, said power cylinders including piston rods connected to said pusher bar such that predetermined sequential operation of said power cylinders causes each point along the periphery of said pusher bar to move in an orbital path whereby particulate matter deposited onto said bottom plate can be pushed in a predictable flow pattern into said circular and ring-shaped discharge openings, and fluid entry means in said removal grate for introducing treating fluids to the interior of said shell.

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Abstract

A vertical shaft processor includes a feed zone utilizing a lock hopper for introducing particulate material to a treatment zone in charges while inhibiting the release of treating fluids from the vessel. A separator receives particulate material from the lock hopper and distributes it across the cross-section of the vessel so as to encourage a uniform cross-sectional flow of various sized particulate material through the treatment zone. Treating fluids are uniformly distributed into the treatment zone of the vessel beneath the separator and through not only linear but also arcuate distributor pipes so that the treating fluids are uniformly exposed to the particulate material across the cross-section of the vessel. A removal grate at the bottom of the vessel includes means for introducing additional treating fluids, which may be cooling fluids, to the particulate material and for removing the material through a central circular opening and an outer ring-like opening to obtain a substantially uniform cross-sectional flow of material from the vessel. A circular pusher bar is supported by circumferentially spaced power cylinders to simultaneously pull and push particulate material into the central and ring-like discharge openings with each cylinder being sequentially operated to obtain an optimal eccentric movement of the pusher bar.

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48 Claims

1. A vertical shaft processor comprising in combination a substantially cylindrical shell having a central vertical longitudinal axis and an exhaust port in an upper portion thereof,feed means at the top of said shell for introducing particulate material to the shell that is to flow by gravity therethrough and be treated by fluids therein, said feed means including gate means to inhibit the release of fluids while permitting said particulate material to flow by gravity through said shell,a material separator mounted in said shell beneath said feed means to receive particulate material from said feed means, said material separator having a downwardly divergent wall onto which said particulate material is deposited, said wall having slots formed therein and a peripheral edge so that some particulate material can pass through said slots and drop beneath said separator while other particulate material can pass over said peripheral edge and drop to the side of said material separator, andremoval grate means forming a lower wall of said shell, said removal grate means including a horizontal bottom plate having a circular discharge opening therethrough and defining a concentric ring shaped discharge opening, a closed loop pusher bar disposed in adjacent relationship with the top surface of said bottom plate, a plurality of power cylinders disposed in oircumferentially spaced relationship around said pusher bar, said power cylinders including piston rods connected to said pusher bar such that predetermined sequential operation of said power cylinders causes each point along the periphery of said pusher bar to move in an orbital path whereby particulate matter deposited onto said bottom plate can be pushed in a predictable flow pattern into said circular and ring-shaped discharge openings, and fluid entry means in said removal grate for introducing treating fluids to the interior of said shell.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23)
- - 2. The processor of claim 1 further including a fluid distribution system mounted in said shell, said distribution system including a plurality of linear distributor pipes extending across said shell and having spaced openings therein, said linear distributor pipes being positioned between said material separator and said removal grate, and at least two arcuate distributor pipes having longitudinally spaced openings therein, said arcuate pipes being positioned adjacent to said shell whereby treating fluids can be introduced to said particulate material through said linear and arcuate distributor pipes and can be removed from said shell through said exhaust port.
  - 3. The processor of claim 1 wherein said feed means includes a feed hopper at the top of said shell into which said particulate material is introduced to said shell and a lock hopper immediately beneath said feed hopper, each of said feed hopper and lock hopper having a discharge opening centered on said central vertical axis at the bottom thereof, said discharge openings being surrounded by a peripheral edge of the associated hopper, each of said feed hopper and lock hopper having a slide gate to selectively open and close the associated discharge opening, said slide gates including a laterally slidable plate having opposite side edges and an opening therethrough which is selectively alignable with the associated discharge opening of a hopper to selectively permit particulate material to flow through said discharge opening, a peripheral wear ring along said peripheral edge, said wear ring being positioned in close proximity to the top surface of said slidable plate, a pair of flat elongated glide rails slidably supporting said opposite side edges, a plurality of spaced support brackets supporting said glide rails, said support brackets extending beneath said glide rails and upwardly along the sides of the glide rails and the side edges of the slidable plate whereby particulate matter that passes beneath said wear ring on the top surface of the slidable plate can drop from the side edges of the slidable plate, and power means operatively connected to said slidable plate to reciprocally move the slidable plate between open and closed positions wherein the opening in the slidable plate is aligned with and non-aligned with the associated discharge opening respectively.
  - 4. The processor of claim 3 further including support rails operatively mounted on said shell and positioned between said brackets and said glide rails.
  - 5. The processor of claim 4 further including vertically adjustable means along said support rails and in operative engagement with the bottom of said glide rails whereby the elevation of the slidable plate can be adjusted to accommodate wear by elevating the glide rails on which the slidable plate is supported relative to the support rails.
  - 6. The processor of claim 5 wherein said adjustment means are set screws threadedly seated in said support rail.
  - 7. The processor of claim 1 wherein said downwardly divergent wall defines a substantially conical surface and said slots have downwardly divergent sides.
  - 8. The processor of claim 7 further including barrier means on said separator forming a raised protuberance over said divergent wall, said barrier means being positioned immediately adjacent to the uppermost extent of said slots.
  - 9. The processor of claim 8 wherein at least some of said barrier means comprise a plate-like protrusion adapted to divert the flow of relatively small particles of particulate matter.
  - 10. The processor of claim 9 wherein said plate-like protrusion comprises a protrusion of L-shaped cross-section having two sides and with said sides diverging away from the apex of the conical surface.
  - 11. The processor of claim 9 further including tubular members opening through and extending upwardly from said conical surface so as to provide a passageway for treating fluids to move through said separator.
  - 12. The processor of claim 11 wherein said tubular members constitute a portion of said barrier means.
  - 13. The processor of claim 1 wherein said removal grate further includes a substantially conically shaped deflector having a circular lower edge and an axis of generation coaxial with the central vertical longitudinal axis of the shell, the lower edge of said deflector being spaced above said bottom plate, a substantially frusto-conical downwardly convergent channeling surface surrounding said deflector in spaced relationship therewith having its lower edge spaced above said bottom plate thereby defining a ring-like opening between said deflector and the channeling surface through which said particulate material can flow onto the bottom plate, and wherein said pusher bar is disposed in vertical alignment with said ring-like opening.
  - 14. The processor of claim 13 wherein said deflector has a downwardly divergent cone section coaxial with and vertically overlapping an underlying frusto-conical, downwardly divergent section, an annular opening between said sections and further including first fluid inlet means for delivering treating fluid to the interior of said sections whereby said treating fluid can flow through said annular opening and into contact with said particulate material.
  - 15. The processor of claim 13 wherein said channeling surface includes two overlapping downwardly convergent frusto-conical sections defining an outer annular opening therebetween, and further including outer fluid inlet means for delivering treating fluid to the interior of said downwardly convergent frusto-conical sections whereby said treating fluid can flow through said outer annular opening and into contact with said particulate material.
  - 16. The processor of claim 14 wherein said channeling surface includes two overlapping downwardly convergent frusto-conical sections defining an outer annular opening therebetween and further including outer fluid inlet means for delivering treating fluid to the interior of said downwardly convergent frusto-conical sections whereby said treating fluid can flow through said outer annular opening and into contact with said particulate material.
  - 17. The processor of claim 13 wherein said power cylinders are pivotally mounted for movement about a vertical pivot axis.
  - 18. The processor of claim 17 wherein said power cylinders have a cylinder body and said piston rod protrudes from an innermost end of said cylinder body, and wherein said pivot axis is ad3acent to said innermost end.
  - 19. The processor of claim 2 wherein said linear distribution pipes have fluid delivery ports along opposite sides thereof and said arcuate distributor pipes have fluid delivery ports along one side opening into the interior of said shell.
  - 20. The processor of claim 19 wherein said shell has diametrically opposed grooves in an internal wall thereof and said arcuate pipes are seated in said grooves.
  - 21. The processor of claim 19 wherein each arcuate distributor pipe has a fluid inlet port and a vertical baffle positioned interiorly of said arcuate distributor pipe in alignment with said fluid inlet port to divert the flow of fluid into said arcuate pipe along the length of said arcuate pipe.
  - 22. The processor of claim 1 further including hopper means beneath said removal grate means to receive particulate material passing through said removal grate means, said hopper means including second gate means to inhibit the release of fluids from said shell while permitting the flow by gravity of said particulate material through the hopper means.
  - 23. The processor of claim 22 wherein said hopper means includes a receptacle into which said particulate material can flow and wherein said second gate means includes an independently movable qate above and belo said reoeptacle.

24. In a vertical shaft processor including a substantially cylindrical shell having a central vertical longitudinal axis and an exhaust port in an upper portion thereof, said processor including feed means at the top thereof for introducing particulate material to the shell to be treated by a counterflow of treating fluids wherein the improvement comprises:
- feed means including a feed hopper at the top of said shell into which said particulate material is introduced to said shell and a lock hopper immediately beneath said feed hopper each of said feed hopper and lock hopper having a discharge opening centered on said central vertical axis at the bottom thereof, said discharge openings being surrounded by a peripheral edge of the associate hopper, each of said feed hopper and lock hopper having a slide gate to selectively open and close said discharge openings, said slide gates including a laterally slidable plate having opposite side edges and an opening therethrough which is selectively alignable with the associated discharge opening to selectively permit particulate material to flow through said discharge opening, a peripheral wear ring along said peripheral edge, said wear ring being positioned in close proximity to the top surface of said slidable plate, a pair of flat elongated glide rails slidably supporting said opposite side edges, a plurality of spaced support brackets supporting said glide rails, said support brackets extending beneath said glide rails and upwardly along the sides of the glide rails and the side edges of the slidable plate whereby particulate matter that passes beneath said wear ring on the top surface of the slidable plate can drop from the side edges of the slidable plate, and power means operatively connected to said slidable plate to reciprocally move the slidable plate between open and close positions wherein the opening in the slidable plate is aligned with and non-aligned with the associated discharge opening respectively.
- View Dependent Claims (25, 26, 27)
- - 25. The processor of claim 24 further including support rails operatively mounted on said shell and positioned between said brackets and said glide rails.
  - 26. The processor of claim 25 further including vertically adjustable means along said support rails and in operative engagement with the bottom of said glide rails whereby the elevation of the slidable plate can be adjusted to accommodate wear by elevating the glide rails on which the slidable plate is supported relative to the support rails.
  - 27. The processor of claim 26 wherein said adjustment means are set screws threadedly seated in said support rail.

28. In a vertical shaft processor having a substantially cylindrical shell with a central vertical longitudinal axis, an exhaust port in an upper portion thereof and feed means at the top of said shell for introducing particulate material to the shell that is to be treated therein, wherein the improvement comprises:
- a material separator mounted in said shell beneath said feed means to receive particulate material from said feed means, said material separator having a downwardly divergent wall onto which said particulate, material is deposited, said wall ahving a peripheral lower edge and slots formed therein, said slots opening through said peripheral edge so that some particular material can pass through said slots and drop beneath said separator while other particulate material can pass over said peripheral edge and drop to the side of said material separator.
- View Dependent Claims (29, 30, 31)
- - 29. The processor of claim 28 wherein said downwardly divergent wall is substantially conical in configuration and said slots have downwardly divergent sides.
  - 30. The processor of claim 29 further including barrier means on said separator forming a raised protuberance over said divergent wall, said barrier means being positioned immediately adjacent to the uppermost extent of said slots.
  - 31. The processor of claim 30 wherein at least some of said barrier means comprise a plate-like protrusion adapted to divert the flow of relatively small particles of particulate matter.

32. In a vertical shaft processor comprising in combination a substantially cylindrical shell having a central vertical longitudinal axis, an exhaust port in an upper portion thereof and feed means at the top of said shell for introducing particulate material to the shell that is to be treated therein, wherein the improvement comprises:
- a removal grate means forming a lower wall of said shell, said removal grate means including a bottom horizontal plate having a circular opening therethrough and a concentric ring-shaped opening therearound, a closed loop pusher bar disposed in adjacent relationship with the top surface of said bottom plate, a plurality of power cylinders disposed in circumferentially spaced relationship around said pusher bar, said power cylinders including piston rods connected to said pusher bar such that predetermined sequential operation of said power cylinders causes each point along the periphery of said pusher bar to move in an orbital path whereby particulate material deposited onto said bottom plate can be pushed in a predictable flow pattern into said circular and ring-shaped openings, and fluid entry means in said removal grate for introducing treating fluids to the interior of said shell.
- View Dependent Claims (33, 34, 35, 36, 37, 38)
- - 33. The processor of claim 32 wherein said removal grate further includes a substantially conically-shaped downwardly divergent deflector having a circular lower edge and an axis of generation coaxial with the central vertical longitudinal axis of the shell, the lower edge of said deflector being spaced above said bottom plate, a downwardly convergent substantially frusto-conical channeling surface surrounding said deflector in spaced relationship therewith having a lower edge spaced above said bottom plate thereby defining a ring-like opening between said deflected surface and channeling surface through which said particulate material can flow onto the bottom plate, and wherein said pusher bar is disposed in alignment with said ring-like opening.
  - 34. The processor of claim 33 wherein said deflector has a downwardly divergent cone section coaxial and vertically overlapping an underlying downwardly divergent frusto-conical section, an annular opening between said sections and further including fluid inlet means for delivering treating fluid to the interior of said sections whereby said treating fluid can flow through said annular opening and into contact with said particulate material.
  - 35. The processor of claim 33 wherein said channeling surface includes two overlapping downwardly convergent frusto-conical sections defining an outer annular opening therebetween and further including outer fluid inlet means for delivering treating fluid to the interior of said downwardly convergent frusto-conical sections whereby said treating fluid can flow through said outer annular opening and into contact with said particular material.
  - 36. The processor of claim 34 wherein said channeling surface includes two overlapping downwardly convergent frusto-conical sections defining an outer annular opening therebetween and further including outer fluid inlet means for delivering treating fluid to the interior of said downwardly convergent frusto-conical sections whereby said treating fluid can flow through said outer annular opening and into contact with said particulate material.
  - 37. The processor of claim 33 wherein said power cylinders are pivotally mounted for movement about a vertical pivot axis.
  - 38. The processor of claim 37 wherein said power cylinders have a cylinder body and said piston rod protrudes from an innermost end of said cylinder body, and wherein said pivot axis is adjacent to said innermost end.

39. In a vertical shaft processor including a substantially cylindrical shell having a central vertical longitudinal axis, an exhaust port in an upper portion thereof, feed means at the top of said shell for introducing particulate material to the shell that is to be treated therein, removal grate means forming a lower wall of said shell, said removal grate means including a horizontal bottom plate having an opening therein for removal of said particulate material and means for introducing treating fluids to the interior of said shell, wherein the improvement comprises,a fluid distribution system mounted in said shell, said distribution system including a plurality of linear distributor pipes having spaced openings therein extending across said shell and vertically spaced between said feed means and said removal grate, and at least two arcuate distributor pipes having longitudinally spaced openings therein, said arcuate pipes being positioned adjacent to said shell whereby treating fluids can be introduced to said particulate material through said distributor pipes and can be removed from said shell through said exhaust port.
- View Dependent Claims (40, 41, 42)
- - 40. In the processor of claim 39, wherein said linear distributor pipes have fluid delivery ports along opposite sides thereof and said arcuate distributor pipes have fluid delivery ports along one side and opening into the interior of said shell.
  - 41. The processor of claim 40, wherein said shell has diametrically opposed grooves and said arcuate pipes are seated in said grooves.
  - 42. The processor of claim 40, wherein each of said arcuate distributor pipes has a fluid inlet port and a vertical baffle positioned interiorly of said arcuate distributor pipe in alignment with said fluid inlet port to divert the flow of fluid into said arcuate pipes along the length of said arcuate pipes.

43. The process of cliam 42, wherein said baffle further includes a plurality of openings therethrough to permit minor portions of said fluid to flow through said baffle.

44. In a vertical shaft processor including a substantially cylindrical shell having an exhaust port in an upper portion thereof, feed means for introducing particulate material to the shell to be treated by a counterflow of treating fluids and a removal grate through which particulate materila can pass after having been treated, wherein the improvement comprises,hopper means beneath said removal grate to receive particulate material passing through said removal greate, said hopper means including gate means to inhibit the release of fluids from said shell while permitting the flow by gravity of said particulate material through the hopper means, said hopper means having a discharge opening with a peripheral edge and said gate means including a slide gate to selectively open and close said discharge opening,s aid slide gate including a laterally slidable plate having opposite side edges and an opening therethrough which is selectively alignable with said discharge opening to selectively permit particulate material to flow through said discharge opening, a peripheral wear ring along said peripheral edge, said wear ring being positioned in close proximity to the top surface of said slidable plate, a pair of flat elongated glide rails slidably supporting said opposite side edges, a plurality of spaced support brackets upporting said glide rails, said support brackets extending beneath said glide rails and upwardly along the sides of the glide rails and the side edges of the slidable plate whereby particulate matter that passes beneath said wear ring on the top surface of the slidable plate can drop from the side edges of the slidable plate, and power means operatively connected to said slidable plate to reciprocally move the slidable plate between open and closed positions wherein the opening in the slidable plate is aligned with and non-aligned with the associated discharge opening, respectively.
- View Dependent Claims (45)
- - 45. In the processor of claim 44, wherein said hopper means includes a receptacle into which said particulate material can flow and wherein said gate means includes an independently movable gate above and below said receptacle.

46. In a vertical shaft processor having a substantially cylindrical shell with a central vertical longitudinal axis, an exhaust port in an upper portion thereof and feed means at the top of said shell for introducing particulate material to the shell that is to be treated therein, wherein the improvement comprises:
- a material separator mounted in said shell beneath said feed means to receive particulate material from said feed means, said material separator having a substantially conical downwardly divergent wall onto which said particular material is deposited, said wall having slots with downwardly divergent sides formed therein and a peripheral edge so that soem particular material can pass through said slots and drop beneath said separator whiel otehr particulate material can apss over said peripheral edge and drop to the side of said material separator, barrier means on said separator forming a raised protuberance over said divergent wall, said barrier means being positioned immediately adjacent to the upper most extent of said slots, some of said barrier means comprising a plate-like protrusion of L-shaped cross-section having two sides and with said sides diverging away from the apex of the substantially conical surface, said barrier means being adapted to divert the flow of relatively small particles of particulate matter.

47. In a vertical shaft processor having a substantially cylindrical shell with a central vertical longitudinal axis, an exhaust port in an upper portion thereof and feed means at the top of said shell for introducing particulate material to teh shell that is to be treated therein, wherein the improvement comprises:
- a material separator mounted in said shell beneath said feed means to receive particulate material from said feed means, said material separator having a substantially conical downwardly divergent wall onto which said particulate material is deposited, said wall having slots with downwardly divergent sides formed therein and a peripheral edge so that some particulate material can pass through said slots and drop beneath said separator while other particulate material can pass over said peripheral edge and drop to the side of said material separator, barrier means on said separator forming a raised protuberance over said divergent wall, said barrier means being positioned immediately adjacent to the upper most extent of said slots, some of said barrier means comprising a plate-like protrusion adapted to divert the flow of relatively small particles of particulate matter and tubular members opening through and extending upwardly from said conical surface so as to provide a passageway for treating fluids to move through said separator.
- View Dependent Claims (48)
- - 48. The processor of claim 47 wherein said tubular members constitute a portion of said barrier means.

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Litigation Campaign Assessment

Current Assignee
Jones And Associates Engineers, Inc.
Original Assignee
John B. Jones Jr
Inventors
Jones, John B. Jr.
Primary Examiner(s)
Bennett, Henry A.

Application Number

US07/759,462
Time in Patent Office

613 Days
Field of Search

34/165, 34/168, 34/169, 34/170, 34/174, 34/181, 34/26, 34/27, 34/32, 34/167, 209/240, 209/244, 209/246
US Class Current

34/168
CPC Class Codes

B01J 8/0035   Periodical feeding or evacu...

F26B 17/1416   the ducts being half open o...

F26B 25/002   for bulk goods F26B17/103 t...

F27B 1/16   Arrangements of tuyeres

F27B 1/20   Arrangements of devices for...

Vertical shaft processor

First Claim

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Accused Products

Abstract

17 Citations

48 Claims

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Vertical shaft processor

First Claim

1 Assignment

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Accused Products

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Abstract

17 Citations

48 Claims

Specification

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Solutions

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