US3467319A - Liquid-cooled processing vessel - Google Patents

Liquid-cooled processing vessel Download PDF

Info

Publication number
US3467319A
US3467319A US575085A US3467319DA US3467319A US 3467319 A US3467319 A US 3467319A US 575085 A US575085 A US 575085A US 3467319D A US3467319D A US 3467319DA US 3467319 A US3467319 A US 3467319A
Authority
US
United States
Prior art keywords
tub
shell
shield
liquid
processing vessel
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US575085A
Inventor
John F Rampe
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
JEPMAR RESEARCH
JOHN F RAMPE
Original Assignee
JOHN F RAMPE
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by JOHN F RAMPE filed Critical JOHN F RAMPE
Application granted granted Critical
Publication of US3467319A publication Critical patent/US3467319A/en
Assigned to JEPMAR RESEARCH reassignment JEPMAR RESEARCH CHANGE OF NAME (SEE DOCUMENT FOR DETAILS). Assignors: RAMP, JOHN F. AND RAMPE JOHN N., PARTNER D/B/A RAMPE RESEARCH
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B24GRINDING; POLISHING
    • B24BMACHINES, DEVICES, OR PROCESSES FOR GRINDING OR POLISHING; DRESSING OR CONDITIONING OF ABRADING SURFACES; FEEDING OF GRINDING, POLISHING, OR LAPPING AGENTS
    • B24B31/00Machines or devices designed for polishing or abrading surfaces on work by means of tumbling apparatus or other apparatus in which the work and/or the abrasive material is loose; Accessories therefor
    • B24B31/06Machines or devices designed for polishing or abrading surfaces on work by means of tumbling apparatus or other apparatus in which the work and/or the abrasive material is loose; Accessories therefor involving oscillating or vibrating containers

Definitions

  • the present invention contemplates, among other things efiectively cooling the basic structure of the tub and liner, not so much by superimposing a cooling jacket on the shell as by the incorporation in the shell of means associated with the liner for circulating a liquid coolant between the shell and the liner.
  • Composite liners of certain types that have come into use in the rather recent past, particularly liners taking the form of steel-backed sheets of rubber or rubber-like materials, lend themselves to modification by the use of techniques that are presently available. When structurally modified as contemplated by the present invention, they may be employed to the end of utilizing the liner itself as a part of the coolant circulating system.
  • the invention may be said to have for one of its objects to provide, for use in a finishing machine or the like, a liquid-cooled processing vessel equipped with replaceable cooling means consisting largely or entirely of a composite liner of high impact abrasion and resistance.
  • FIGURE 3 is an enlarged fragmentary section on line 3'3' of FIGURE 1;
  • FIGURES 1 and 2 Illustrated generally at 1 in FIGURES 1 and 2 is an open-top tub of oblong shape characterized, among other things, by a body portion consisting of a generally cylindrical steel shell 2.
  • the long sides of shell 2 extend upward to form the vertical flanges 2a seen in FIGURE 2.
  • a flat steel end piece 3 conforming in shape to the transverse section of the shell is welded to the end portion of the shell.
  • the top edges of flanges 2a define the two sides and the top edge of end piece 3 defines one of the two ends of the top opening in the tub.
  • tub 1 At the opposite end of tub 1, likewise welded to shell 2, is a generally simiar steel end piece 4 provided with a large discharge opening 4a, a sturdy door 5, a door gasket 5a, and a permanently attached discharge chute 6.
  • tub-1 At the bottom of tub-1 will normaly be an opening or sump of suitable shape and size and an underlying drain assembly 7 (see FIGURE 1). Cooling Water introduced into the interior of tub 1 as hereinafter explained is permitted to flow therethrough into drain assembly 7 and thence into a sewer or, if desired, into a conduit leading to a system for cooling, filtering and temporarily storing the Water preparatory to re-using it as a coolant. Finishing media, work pieces and entrained water, on the other hand, are normally discharged through end opening 4a and chute 6.
  • a heavy steel cradle 8 is welded to and supports tub 1.
  • Cradle 8 consists of a plurality of steadying pieces 811, one or more longitudinally extending members 8b, and two longitudinally extending angles 80. The latter are bolted to members 8b and welded to uprights 9, which, together with cradle 8, form part of the vibratory structure; i.e., that portion of the machine which is vibrated in the normal course of its operation.
  • Uprights 9 are carried by and adapted to move in relation to stationary uprights 10, four of which form part of the frame of the machine. Uprights 9 and 10 are connected through mounting assemblies 11 of the rubber-inshear type, of which there are two at each end of cradle 8. Eccentric shafting 12, coupled to and driven from pulley 13 and pulley shaft 14, is employed to impart the desired vibratory movement to such components as members 15, uprights 9, cradle 8 and tub 1.
  • the present invention provides a water-cooled interior shield in the form of a replaceable sleeve or replaceable panel conforming fairly closely to the contour of the surface on which it is used. Its use serves to overcome some of the most troublesome of the abovedescribed problems.
  • such interior shield takes both forms; i.e., that of a sleeve-like element 16 which serves to line the side walls of the tub and that of a panel which serves to line end piece 3.
  • the former is usually the more important and therefore is likely to be present even though, in a given case, the latter may be lacking.
  • Sleeve 16 is best seen in FIGURE 2. It is comprised of a composite material consisting of a metal backing sheet 17 of 16-gauge impactand abrasion-resistant sheet steel to which is permanently bonded a thick covering sheet or coat 18 of high-performance rubber; i.e., rubber characterized, among other things, by a marked ability to resist abrasion.
  • the overall thickness of the composite material hereinafter referred to simlpy as the liner, can to advantage be about one-half inch.
  • the rubber layer can to advantage be about seven times as thick as the backing sheet. However, the thickness ratio may be greater or less than seven to one and the overall thickness may be less or more than one-half inch.
  • sleeve-like shield 16 fits more or less loosely within shell 2. This somewhat loose fit results in part from the fact that metal backing 17, and therefore rubber layer 18, is of undulating shape.
  • the liner as produced is ordinarily flat, requiring that it be worked to give it the undulating appearance shown in FIGURES 1 and 3.
  • the undulating shape in turn gives rise to voids and ridges that for present purposes can best extend radially; i.e., transversely of the longitudinal axis of shell 2.
  • spaces 19 and ridges 20 will define and act as peripherally oriented water courses making for orderly flow of the water employed in cooling the walls of the tub.
  • sleeve-like shield 16 terminates and thus has longitudinally extending edges at 21 just above the zones in which the cylindrical body portion of shell 2 gives way to vertical flanges 2a. In this vicinity sleeve-like shield 16 can conveniently be suspended from its top, producing the above-described loose fit within the shell.
  • the top portions of the shield are clamped in place and to some extent supported by two longitudinally extending clamping strips 22, one on each side of shell 2.
  • Strips are provided with angled end portions 22a and 22b of which the former extend over the top edges of flanges .4 2a and the latter strike downward into engagement with sleevelike shield 16.
  • Each of the two clamping strips is held in place by a series of bolts 23 and nuts 24, which, when urged toward each other, do not close completely but leave the voids indicated at 25 behind clamping strips 22.
  • each mounting piece 26 is welded to the outer surface of the shell.
  • the number in each of the two series will depend on the length of the shell: in typical cases there may be from a half dozen to a dozen.
  • each mounting piece is drilled through from top to bottom and tapped to enable it to accommodate the threaded hollow stem of a fitting 27 that is essentially of the nature of an elbow: see FIGURE 2.
  • a conduit (not shown) serves as a common source of cooling water: it communicates with the inlets 28 in the several fittings.
  • Water from this source proceeds into inlets 28, into and through the threaded shanks of fittings 27, and into openings 29 in the wall of shell 2.
  • Mounting pieces 26 and fittings 27 are preferably so located that they lie outward of ridges 20; i.e., behind transversely extending spaces 19. If so, the cooling water can travel downward by gravitational action virtually immediately upon entering the shell. However, lateral travel of the cooling water behind shield 16 is by no means precluded, particularly when the cooling water is under moderate pressure, as is usually the case.
  • a smaller shield 30 of the panel type the shape of which corresponds to the shape of the end portion of the tub. It is suspended toward its top from the upper portion of end piece 3.
  • sleeve-like shield 16 it is characterized by undulations. For some purposes and in a broad sense it may be thought of as fiat. From FIGURE 2 it will be seen to consist of a metal backing sheet 31 to which is bonded a layer 32 of rubber. It is characterized by vertical ridges 33 behind which are vertical spaces adapted to serve as water courses.
  • Transversely mounted spacing strips 34 are located where indicated by the transverse dotted lines appearing in FIGURE 1.
  • Bolts 35 and nuts 36 serve to hold panel-like shield 30 in place in a manner permitting it to hang it more or less loosely.
  • Cooling Water entering through mounting pieces 38 and fittings 39 tends to fill voids 37 between the spacing strips behind panel-like shield 30, which voids act as headers or distributors to facilitate orderly flow of the cooling water.
  • sleeve-like shield 16 is provided with a group of small openings 40 overlying the large drain opening immediately above drain assembly 7. Because shields 16 and 30 are loosely suspended within the shell, cooling water finding its way into the spaces behind the ridges tends to make its way without undue difficulty into and out of the central portion of the tub. That part of the cooling water which courses downward behind sleeve-like shield 16 readily escapes through fitting 7. That part which enters through end piece 3 proceeds to the bottom of shell 2 by following whatever path it finds it easiest to take. If it flows into sleeve-like shield 16, as it can do, drain holes 40 facilitate its escape into drain assembly 7.
  • FIGURE 3 represents a section on line 33 of FIGURE 1. Except as to the various reference characters, it could serve equally well to represent a section taken on line 3"--3" of FIGURE 2. The reason resides in the fact that the undulating shape to which reference has already been made is characteristic not only of sleeve-like shield 16 but also panel-like shield 30.
  • FIGURE 4 deals with a closely related modification described below and illustrated in FIGURE 5.
  • the portions of shell 42 above a horizontal plane passing through its major axis extend vertically upward, imparting a generally U-shaped appearance to the cross section and giving the tub as a whole a somewhat greater capacity.
  • a loosely hanging sleeve-like shield 43 of undulating contour of high resistance to impact and abrasion Suspended from the upper portions of shell 42 is a loosely hanging sleeve-like shield 43 of undulating contour of high resistance to impact and abrasion.
  • sleeve-like shield 43 may for certain purposes be covered by a thick layer of an elastomer such as rubber of the high-performance type, it is sometimes entirely satisfactory to make use of metal with no overlying coating.
  • the undulations form downwardly-directed water courses 44 extending transversely of the longitudinal axis of the tub.
  • the clamping system includes, in addition to bolts 47, clamping strips 45 and 46, the former extending laterally along the long sides of the tub opening and the latter at right angles thereto at the end appearing in FIGURE 5.
  • Bolts 47 hold the clamping strips and shield to shell 42.
  • a panel-like shield 48 At the end corresponding to the end seen in FIGURE 2 is a panel-like shield 48, likewise of metal of undulating contour, corresponding in shape to the shape of the end portion of the tub (42').
  • panel 48 is characterized by ridges 50 and spaces 49 through which cooling water may flow to the bottom of the tub.
  • the external system for supplying cooling Water to the sides and end of the tub is the same as that shown in FIGURES 1 and 2.
  • the ridges and spaces characterizing the sleevelike shield may, if desired, be so oriented as to extend parallel to rather than transversely of the major axis of the vessel. If so, the system for supplying and withdrawing cooling liquid can use annular headers, one at each end of the vessel, with the cooling liquid flowing from one to the other in courses delineated by the spaces behind the ridges. Other changes of generally similar nature may be expected to suggest themselves to those skilled in the art to which the invention relates.
  • a liquid-cooled processing vessel comprising a shell having body and end portions; end pieces at the end portions of the shell; a shield of abrasion-resistant material loosely suspended in spaced relation to the shell between the end pieces; means for introducing a cooling liquid into the shell; and means directing the cooling liquid through and confining it to the space between the shield and the shell.
  • a processing vessel wherein the shield takes the form of a liner characterized by a multiplicity of ridges standing away from the wall of the vessel and a multiplicity of spaces 'behind them serving as courses for the cooling liquid.
  • a liquid-cooled tub having body and end portions; transversely extending end pieces at the end portions of the tub; a sleeve-like shield of abrasion-resistant material loosely suspended within the body portion of the tub; means for introducing a cooling liquid into the interior of the tub; and means facilitating the orderly flow of cooling liquid between the shield and the tub.
  • a liquid-cooled processing tub transversely extending end pieces attached at end portions of the tub; a suspended panel-like shield of abrasion-resistant material loosely lining one of the end pieces; means for introducing a liquid coolant into the tub; and means facilitating the flow of cooling liquid between the shield and the tub.
  • a processing tub according to claim 10 wherein said panel-like shield is characterized by elongated ridges with correspondingly shaped spaces behind them that serve as courses for the cooling liquid.
  • a liquid-cooled processing vessel comprising a shell having body and end portions; end pieces at the end portions of the shell; abrasion-resistant material in sleeve form loosely suspended from the shell between the end pieces; abrasion-resistant material in panel form loosely suspended from at least one of the end pieces;
  • a processing vessel according to claim 14 wherein the liners consist of sheet steel backing material overlaid with a coating of a rubber-like elastomer of high performance characteristics.

Description

Sept. 16, 1969 J. F. RAMPE LIQUID-COOLED PROCESSING vrzssm.
2 Sheets-finest 1 Filed Aug. 25. 1966 lN vENTOl i. JOHN PA MPE WMM,
Sept. 16, 1969 J. F. RAMPE 3,467,319
LIQUID-COOLED PROCESSING VESSEL Filed Aug. 25, 1966 2 Sheets-Sheet 2 22a 33 30 33 1 "L 1 1 1 2 F; 24 4 4 22 25 25 H 35 35 23 24 2 2 2a (5 2a 1 Z7 Z7 I [226 INVENTOR. JbH/v F PA MPE United States Patent 3,467,319 LIQUID-COOLED PROCESSING VESSEL John F. Rampe, 3417 Fairfax Road, Cleveland Heights, Ohio 44118 Filed Aug. 25, 1966, Ser. No. 575,085 Int. Cl. B02b 1/08, 5 02; B02c 11/08 US. Cl. 241-67 15 Claims ABSTRACT OF THE DISCLOSURE This invention relates to the liquid-cooling of tubs, drums and similar processing vessels such as are to be found, for example, in orbital finishing machines; in certain types of rod, ball and pebble mills; and, among others, in rock mills and the like.
All of these machines have in common the fact that what they hold in the way of contents, charge or load is subjected to tumbling, vibration, agitation or some similar form of physical displacement. While the usefulness of the invention is not confined to a particular type of machine, it will nevertheless be described, for convenience, in terms of modern finishing machines of the orbital type. The latter vibrate the contents of the tub in orbital fashion and are the subject, inter alia, of prior Patents Nos. 3,191,347, 3,191,348 and 3,231,093 to John F. Rampe.
It is known, feasible and in some instances routine practice to cool heavy-duty processing equipment (crushers, granulators, pulverizers and the like) by superimposing on the basic structure an external water jacket of one kind or another, but in the past relatively little productive consideration has been given to techniques and means for effectively cooling the peripheral portions of tubs of the type employed in orbital finishing machines. In the latter, the tub in which finishing operations are performed is often coated interiorly with a thick lining of an elastomeric material such as vulcanized rubber, a rubber-like polymer or a plastisol residue. Such coatings are usually regarded as adequately resistant to impact and abrasion at temperatures more or less of the order of normal room temperatures, but under difficult operating conditions, particularly Where elevated temperatures are developed, they manifest a tendency to deteriorate with time.
The present invention contemplates, among other things efiectively cooling the basic structure of the tub and liner, not so much by superimposing a cooling jacket on the shell as by the incorporation in the shell of means associated with the liner for circulating a liquid coolant between the shell and the liner. Composite liners of certain types that have come into use in the rather recent past, particularly liners taking the form of steel-backed sheets of rubber or rubber-like materials, lend themselves to modification by the use of techniques that are presently available. When structurally modified as contemplated by the present invention, they may be employed to the end of utilizing the liner itself as a part of the coolant circulating system.
Thus the invention may be said to have for one of its objects to provide, for use in a finishing machine or the like, a liquid-cooled processing vessel equipped with replaceable cooling means consisting largely or entirely of a composite liner of high impact abrasion and resistance.
3,467,319 Patented Sept. 16, 1969 The preferred embodiment of the invention involves the use of a structurally modified liner consisting primarily of high performance rubber permanently bonded to a steel backing member. However, it is also feasible to use a structurally modified metal liner without any covering layer of rubber or the like, provided the metal used for the purpose is itself adequately resistant to impact and abrasion.
In both cases, the metal used in or as the liner should be tough, strong and fairly easily shaped; however, in most instances, at least in the case of the presently available types of abrasion-resistant sheet steel, it need not be of a thickness greater than approximately ,4 of an inch. Whether used with or without a covering sheet of highperformance rubber, it may advantageously and will usually be of a tough ferrous metal alloy lending itself to rolling, bending and shearing on conventional metal Working equipment. Sheet steel of the desired characteristics is available on the commercial market at the present time.
Other objects, advantages and features of the invention will be apparent from the description which follows and from the accompanying drawings, in which:
FIGURE 1 is a central vertical longitudinal section through the upper part of an orbital finishing machine including a processing vessel taking the form of a drumshaped tube provided with a structurally modified liner conforming to the present invention;
FIGURE 2 is a transverse section seen as if from line 22 of FIGURE 1;
FIGURE 3 is an enlarged fragmentary section on line 3'3' of FIGURE 1;
FIGURE 4 is an enlarged fragmentary section of like nature illustrating the manner of use of an all-steel liner without a covering sheet of rubber or the like; and
FIGURE 5 is a reduced-scale section, generally similar to the section appearing in FIGURE 2, through a process ing tub the upper half of which is non-cylindrical.
Illustrated generally at 1 in FIGURES 1 and 2 is an open-top tub of oblong shape characterized, among other things, by a body portion consisting of a generally cylindrical steel shell 2. The long sides of shell 2 extend upward to form the vertical flanges 2a seen in FIGURE 2. At the right hand end of the tub, seen as in FIGURE 1, a flat steel end piece 3 conforming in shape to the transverse section of the shell is welded to the end portion of the shell. The top edges of flanges 2a define the two sides and the top edge of end piece 3 defines one of the two ends of the top opening in the tub.
At the opposite end of tub 1, likewise welded to shell 2, is a generally simiar steel end piece 4 provided with a large discharge opening 4a, a sturdy door 5, a door gasket 5a, and a permanently attached discharge chute 6.
At the bottom of tub-1 will normaly be an opening or sump of suitable shape and size and an underlying drain assembly 7 (see FIGURE 1). Cooling Water introduced into the interior of tub 1 as hereinafter explained is permitted to flow therethrough into drain assembly 7 and thence into a sewer or, if desired, into a conduit leading to a system for cooling, filtering and temporarily storing the Water preparatory to re-using it as a coolant. Finishing media, work pieces and entrained water, on the other hand, are normally discharged through end opening 4a and chute 6.
A heavy steel cradle 8, best seen in FIGURE 2, is welded to and supports tub 1. Cradle 8 consists of a plurality of steadying pieces 811, one or more longitudinally extending members 8b, and two longitudinally extending angles 80. The latter are bolted to members 8b and welded to uprights 9, which, together with cradle 8, form part of the vibratory structure; i.e., that portion of the machine which is vibrated in the normal course of its operation.
Uprights 9 are carried by and adapted to move in relation to stationary uprights 10, four of which form part of the frame of the machine. Uprights 9 and 10 are connected through mounting assemblies 11 of the rubber-inshear type, of which there are two at each end of cradle 8. Eccentric shafting 12, coupled to and driven from pulley 13 and pulley shaft 14, is employed to impart the desired vibratory movement to such components as members 15, uprights 9, cradle 8 and tub 1.
In the operation of an orbital finishing machine of the type so far described, the finishing media, the objects to be finished (work pieces), and the treating liquid ordinarily introduced with them into the tub produce a load line that is often as high as, or even higher than, line A-A in FIGURE 1. In consequence, nearly all portions of any elastomeric coating on the inside surface of the tub or forming a portion of a replaceable liner, if one is used in it, are subjected to the severe abrading action of the tub contents, the dynamic action of the work pieces as they rise and fall within the mass, and hysteresis-induced temperature changes in the coating itself. The latter factor alone may result in skin temperatures approaching the temperature of boiling water. In these circumstances, it is not difficult to understand why almost any elastomer will tend to soften, deteriorate and require replacement.
In effect, the present invention provides a water-cooled interior shield in the form of a replaceable sleeve or replaceable panel conforming fairly closely to the contour of the surface on which it is used. Its use serves to overcome some of the most troublesome of the abovedescribed problems. In the case of the tub shown in Figures 1 and 2, such interior shield takes both forms; i.e., that of a sleeve-like element 16 which serves to line the side walls of the tub and that of a panel which serves to line end piece 3. The former is usually the more important and therefore is likely to be present even though, in a given case, the latter may be lacking.
Sleeve 16 is best seen in FIGURE 2. It is comprised of a composite material consisting of a metal backing sheet 17 of 16-gauge impactand abrasion-resistant sheet steel to which is permanently bonded a thick covering sheet or coat 18 of high-performance rubber; i.e., rubber characterized, among other things, by a marked ability to resist abrasion. The overall thickness of the composite material, hereinafter referred to simlpy as the liner, can to advantage be about one-half inch. The rubber layer can to advantage be about seven times as thick as the backing sheet. However, the thickness ratio may be greater or less than seven to one and the overall thickness may be less or more than one-half inch.
As indicated in FIGURE 3, sleeve-like shield 16 fits more or less loosely within shell 2. This somewhat loose fit results in part from the fact that metal backing 17, and therefore rubber layer 18, is of undulating shape. The liner as produced is ordinarily flat, requiring that it be worked to give it the undulating appearance shown in FIGURES 1 and 3. The undulating shape in turn gives rise to voids and ridges that for present purposes can best extend radially; i.e., transversely of the longitudinal axis of shell 2. Provided the liner is worked as described, rolled into a sleeve, and introduced endwise into shell 2, spaces 19 and ridges 20 will define and act as peripherally oriented water courses making for orderly flow of the water employed in cooling the walls of the tub.
Referring to FIGURE 2, sleeve-like shield 16 terminates and thus has longitudinally extending edges at 21 just above the zones in which the cylindrical body portion of shell 2 gives way to vertical flanges 2a. In this vicinity sleeve-like shield 16 can conveniently be suspended from its top, producing the above-described loose fit within the shell. The top portions of the shield are clamped in place and to some extent supported by two longitudinally extending clamping strips 22, one on each side of shell 2. Strips are provided with angled end portions 22a and 22b of which the former extend over the top edges of flanges .4 2a and the latter strike downward into engagement with sleevelike shield 16. Each of the two clamping strips is held in place by a series of bolts 23 and nuts 24, which, when urged toward each other, do not close completely but leave the voids indicated at 25 behind clamping strips 22.
In copending application Ser. No. 705,646 several such clamping systems are shown and described in detail.
On each of the two opposite sides of shell 2 a series of small mounting pieces 26 is welded to the outer surface of the shell. The number in each of the two series will depend on the length of the shell: in typical cases there may be from a half dozen to a dozen. In preparing them, each mounting piece is drilled through from top to bottom and tapped to enable it to accommodate the threaded hollow stem of a fitting 27 that is essentially of the nature of an elbow: see FIGURE 2. A conduit (not shown) serves as a common source of cooling water: it communicates with the inlets 28 in the several fittings.
Water from this source proceeds into inlets 28, into and through the threaded shanks of fittings 27, and into openings 29 in the wall of shell 2. Mounting pieces 26 and fittings 27 are preferably so located that they lie outward of ridges 20; i.e., behind transversely extending spaces 19. If so, the cooling water can travel downward by gravitational action virtually immediately upon entering the shell. However, lateral travel of the cooling water behind shield 16 is by no means precluded, particularly when the cooling water is under moderate pressure, as is usually the case.
At the end of the tub appearing at the right in FIG- URE l is a smaller shield 30 of the panel type the shape of which corresponds to the shape of the end portion of the tub. It is suspended toward its top from the upper portion of end piece 3. Like sleeve-like shield 16, it is characterized by undulations. For some purposes and in a broad sense it may be thought of as fiat. From FIGURE 2 it will be seen to consist of a metal backing sheet 31 to which is bonded a layer 32 of rubber. It is characterized by vertical ridges 33 behind which are vertical spaces adapted to serve as water courses.
' Transversely mounted spacing strips 34, three in number, are located where indicated by the transverse dotted lines appearing in FIGURE 1. Bolts 35 and nuts 36, the former of which pass through the uppermost of the spacing strips, serve to hold panel-like shield 30 in place in a manner permitting it to hang it more or less loosely. Cooling Water entering through mounting pieces 38 and fittings 39 tends to fill voids 37 between the spacing strips behind panel-like shield 30, which voids act as headers or distributors to facilitate orderly flow of the cooling water.
At the bottom of tub 1, sleeve-like shield 16 is provided with a group of small openings 40 overlying the large drain opening immediately above drain assembly 7. Because shields 16 and 30 are loosely suspended within the shell, cooling water finding its way into the spaces behind the ridges tends to make its way without undue difficulty into and out of the central portion of the tub. That part of the cooling water which courses downward behind sleeve-like shield 16 readily escapes through fitting 7. That part which enters through end piece 3 proceeds to the bottom of shell 2 by following whatever path it finds it easiest to take. If it flows into sleeve-like shield 16, as it can do, drain holes 40 facilitate its escape into drain assembly 7.
FIGURE 3, as already pointed out, represents a section on line 33 of FIGURE 1. Except as to the various reference characters, it could serve equally well to represent a section taken on line 3"--3" of FIGURE 2. The reason resides in the fact that the undulating shape to which reference has already been made is characteristic not only of sleeve-like shield 16 but also panel-like shield 30. FIGURE 4, on the other hand, deals with a closely related modification described below and illustrated in FIGURE 5.
In the modified form of tub shown on a reduced scale in FIGURE 5, the portions of shell 42 above a horizontal plane passing through its major axis extend vertically upward, imparting a generally U-shaped appearance to the cross section and giving the tub as a whole a somewhat greater capacity. Suspended from the upper portions of shell 42 is a loosely hanging sleeve-like shield 43 of undulating contour of high resistance to impact and abrasion. Although sleeve-like shield 43 may for certain purposes be covered by a thick layer of an elastomer such as rubber of the high-performance type, it is sometimes entirely satisfactory to make use of metal with no overlying coating. The undulations form downwardly-directed water courses 44 extending transversely of the longitudinal axis of the tub.
In the tub shown in FIGURE 5, the clamping system includes, in addition to bolts 47, clamping strips 45 and 46, the former extending laterally along the long sides of the tub opening and the latter at right angles thereto at the end appearing in FIGURE 5. Bolts 47 hold the clamping strips and shield to shell 42. At the end corresponding to the end seen in FIGURE 2 is a panel-like shield 48, likewise of metal of undulating contour, corresponding in shape to the shape of the end portion of the tub (42'). As indicated in FIGURE 4, panel 48 is characterized by ridges 50 and spaces 49 through which cooling water may flow to the bottom of the tub. The external system for supplying cooling Water to the sides and end of the tub is the same as that shown in FIGURES 1 and 2.
It is evident that modifications of what has already been described may be made by those skilled in the art Without departing from the spirit of the invention. For example, the ridges and spaces characterizing the sleevelike shield may, if desired, be so oriented as to extend parallel to rather than transversely of the major axis of the vessel. If so, the system for supplying and withdrawing cooling liquid can use annular headers, one at each end of the vessel, with the cooling liquid flowing from one to the other in courses delineated by the spaces behind the ridges. Other changes of generally similar nature may be expected to suggest themselves to those skilled in the art to which the invention relates.
It is intended that the patent shall cover, by summarization in appended claims, all features of patentable novelty residing in the invention.
What is claimed is:
1. A liquid-cooled processing vessel comprising a shell having body and end portions; end pieces at the end portions of the shell; a shield of abrasion-resistant material loosely suspended in spaced relation to the shell between the end pieces; means for introducing a cooling liquid into the shell; and means directing the cooling liquid through and confining it to the space between the shield and the shell.
2. A processing vessel according to claim 1 wherein the shield takes the form of a liner characterized by a multiplicity of ridges standing away from the wall of the vessel and a multiplicity of spaces 'behind them serving as courses for the cooling liquid.
3. A processing vessel according to claim 2 wherein the ridges and associated spaces extend in a direction generally parallel to the longitudinal axis of the vessel.
4. A processing vessel according to claim 2 wherein the ridges and associated spaces extend transversely of the major axis of the vessel.
5. A processing vessel according to claim 4 wherein the liner takes the form of a panel the general plane of which extends normally to the major axis of the vessel.
6. A processing vessel according to claim 4 wherein the liner takes the form of a sleeve the longitudinal axis of which substantially coincides with the major axis of the vessel.
7. A liquid-cooled tub having body and end portions; transversely extending end pieces at the end portions of the tub; a sleeve-like shield of abrasion-resistant material loosely suspended within the body portion of the tub; means for introducing a cooling liquid into the interior of the tub; and means facilitating the orderly flow of cooling liquid between the shield and the tub.
8. A tub according to claim 7 wherein the shield takes the 'form of a liner characterized by elongated ridges with correspondingly shaped spaces behind them that serve as courses for cooling liquid.
9. A tub according to claim 8 wherein the ridges follow around the periphery of the tub along paths that extend transversely of its major axis.
10. A liquid-cooled processing tub; transversely extending end pieces attached at end portions of the tub; a suspended panel-like shield of abrasion-resistant material loosely lining one of the end pieces; means for introducing a liquid coolant into the tub; and means facilitating the flow of cooling liquid between the shield and the tub.
11. A processing tub according to claim 10 wherein said panel-like shield is characterized by elongated ridges with correspondingly shaped spaces behind them that serve as courses for the cooling liquid.
12. A processing tub according to claim 11 wherein the ridges are vertically oriented in said panel-like shield.
13. A liquid-cooled processing vessel comprising a shell having body and end portions; end pieces at the end portions of the shell; abrasion-resistant material in sleeve form loosely suspended from the shell between the end pieces; abrasion-resistant material in panel form loosely suspended from at least one of the end pieces;
means for introducing a cooling liquid into the shell; and means facilitating the orderly flow of cooling liquid between the shell and the abrasion-resistant material lining the shell.
14. A processing vessel according to claim 13 wherein the abrasion-resistant components take the form of liners of undulating shape.
15. A processing vessel according to claim 14 wherein the liners consist of sheet steel backing material overlaid with a coating of a rubber-like elastomer of high performance characteristics.
References Cited UNITED STATES PATENTS 628,499 7/ 1899 Sutphen 241-67 X 1,728,496 9/ 1929 Lindhard 241-67 X 3,204,881 9/1965 Parten 241-66 3,333,367 8/1967 Salvaire 51-3 14 X WILLIAM S. LAWSON, Primary Examiner U.S. Cl. X.R.
US575085A 1966-08-25 1966-08-25 Liquid-cooled processing vessel Expired - Lifetime US3467319A (en)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US57508566A 1966-08-25 1966-08-25

Publications (1)

Publication Number Publication Date
US3467319A true US3467319A (en) 1969-09-16

Family

ID=24298867

Family Applications (1)

Application Number Title Priority Date Filing Date
US575085A Expired - Lifetime US3467319A (en) 1966-08-25 1966-08-25 Liquid-cooled processing vessel

Country Status (3)

Country Link
US (1) US3467319A (en)
DE (1) DE1652161A1 (en)
GB (1) GB1164925A (en)

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3707058A (en) * 1971-02-03 1972-12-26 King Seeley Thermos Co Vibratory finishing apparatus
USB441416I5 (en) * 1974-02-11 1975-01-28
US3869091A (en) * 1972-05-10 1975-03-04 Smidth & Co As F L Tube mill
US3871589A (en) * 1974-01-18 1975-03-18 Sybron Corp Amalgam mulling container
US4569648A (en) * 1984-01-21 1986-02-11 Skw Trostberg Aktiengesellschaft Self-cleaning rotating drum
US4739895A (en) * 1986-04-07 1988-04-26 Adisa Entwicklungs Ag Upright tank construction with double bottom, and method of its manufacture

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US628499A (en) * 1897-11-20 1899-07-11 John E Sutphen Ore-amalgamator.
US1728496A (en) * 1927-11-11 1929-09-17 Smidth & Co As F L Manufacture of portland cement
US3204881A (en) * 1959-01-28 1965-09-07 Parten Machinery Company Pulverizing apparatus
US3333367A (en) * 1964-12-29 1967-08-01 Salvaire Ernesto Apparatus for removing flash

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US628499A (en) * 1897-11-20 1899-07-11 John E Sutphen Ore-amalgamator.
US1728496A (en) * 1927-11-11 1929-09-17 Smidth & Co As F L Manufacture of portland cement
US3204881A (en) * 1959-01-28 1965-09-07 Parten Machinery Company Pulverizing apparatus
US3333367A (en) * 1964-12-29 1967-08-01 Salvaire Ernesto Apparatus for removing flash

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3707058A (en) * 1971-02-03 1972-12-26 King Seeley Thermos Co Vibratory finishing apparatus
US3869091A (en) * 1972-05-10 1975-03-04 Smidth & Co As F L Tube mill
US3871589A (en) * 1974-01-18 1975-03-18 Sybron Corp Amalgam mulling container
USB441416I5 (en) * 1974-02-11 1975-01-28
US3913851A (en) * 1974-02-11 1975-10-21 Trelleborg Rubber Company Inc Wear resistant lining for grinding mills
US4569648A (en) * 1984-01-21 1986-02-11 Skw Trostberg Aktiengesellschaft Self-cleaning rotating drum
US4739895A (en) * 1986-04-07 1988-04-26 Adisa Entwicklungs Ag Upright tank construction with double bottom, and method of its manufacture
USRE33421E (en) * 1986-04-07 1990-11-06 Adisa Entwicklungs Ag Tank construction with double bottom, and method of its manufacture

Also Published As

Publication number Publication date
DE1652161A1 (en) 1970-05-06
GB1164925A (en) 1969-09-24

Similar Documents

Publication Publication Date Title
US3467319A (en) Liquid-cooled processing vessel
US2703550A (en) Apparatus for descaling and coating wire
US4032075A (en) Multi-chambered scrubber having polygonal cross-section
CA1307115C (en) Centrifugal finishing apparatus embodying improved seal and method
US4693037A (en) Multistage finishing device and method
US2540358A (en) Gyratory ball mill having a gyrated chamber with a peripheral discharge
CN212824675U (en) Grinding and polishing machine
US3442691A (en) Surface treating of articles by rotating and reciprocating the treatment container
CN110983009B (en) Heat treatment device for producing rotary shaft of machine tool
US3206128A (en) Autogenous grinding method
US2132508A (en) Cone crusher
US1434232A (en) Method of mixing
US3570184A (en) Rotary finishing machine having removable screen panels
CN106422481A (en) Device for separating out scrap iron from cutting fluid
CN109395823B (en) Tombarthite mineral aggregate breaker
US1473366A (en) Brake drum
JPH0222210Y2 (en)
DE212009000126U1 (en) Crystallizer
US3122863A (en) Scalloped edge on settling tank for grit blasting
Matsunaga Theory and experiments on centrifugal barrel finishing
US1040876A (en) Gold-ore-grinding mill.
US2368586A (en) Tumbling machine
US3064906A (en) Apparatus for comminuting ores or the like
US2204039A (en) Treatment of grain, especially wheat
SU1041143A1 (en) Wn member for removing circumferential layers of grain

Legal Events

Date Code Title Description
AS Assignment

Owner name: JEPMAR RESEARCH 1246 HIGH STREET, FAIR PORT HARBOR

Free format text: CHANGE OF NAME;ASSIGNOR:RAMP, JOHN F. AND RAMPE JOHN N., PARTNER D/B/A RAMPE RESEARCH;REEL/FRAME:004188/0878

Effective date: 19820927