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US3144681A - Apparatus for roll compacting metal and metal coated particles - Google Patents

Apparatus for roll compacting metal and metal coated particles Download PDF

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Publication number
US3144681A
US3144681A US194380A US19438062A US3144681A US 3144681 A US3144681 A US 3144681A US 194380 A US194380 A US 194380A US 19438062 A US19438062 A US 19438062A US 3144681 A US3144681 A US 3144681A
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roll gap
rolls
metal
belt
roll
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US194380A
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Krantz Tibor
Silins Vilnis
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Viridian Inc Canada
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Sherritt Gordon Mines Ltd
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B22CASTING; POWDER METALLURGY
    • B22FWORKING METALLIC POWDER; MANUFACTURE OF ARTICLES FROM METALLIC POWDER; MAKING METALLIC POWDER; APPARATUS OR DEVICES SPECIALLY ADAPTED FOR METALLIC POWDER
    • B22F3/00Manufacture of workpieces or articles from metallic powder characterised by the manner of compacting or sintering; Apparatus specially adapted therefor ; Presses and furnaces
    • B22F3/18Manufacture of workpieces or articles from metallic powder characterised by the manner of compacting or sintering; Apparatus specially adapted therefor ; Presses and furnaces by using pressure rollers

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  • KRANTZ ETAL 1 wa a w m mmm t m Z S wow 2 m Attorney Aug- 8, 4 r.
  • This invention relates to improvements in a roll compacting unit of the type employed for roll compacting metal powder into sheets and strips.
  • the invention is particularly directed to the provision of improved means for confining metal powder to the roll gap and for closely controlling the density and compactness across the width of the strip or sheet.
  • One known device involves the use of flexible discs or flanges mounted at each end of one of the rolls or at one end of one roll and at the opposite end of the other roll.
  • the so-mounted discs or flanges have a radius greater than the roll on which they are mounted by at least the width of the roll gap.
  • the discs or flanges are pressed against the opposing faces of the ends of the roll at the roll gap and confine the metal powder within the roll gap during compaction of the particles, thereby preventing leakage of metal powder from the ends of the rolls.
  • slightly flexible discs are used which are pressed against the opposing faces of the ends of the rolls at the roll gap and pressed away from the opposing faces of the ends of the rolls at a point beyond the roll gap, thus facilitating discharge of the green strip or sheet from the roll gap without friction or bindmg.
  • a further known arrangement for confining metal powder to the roll gap involves two rigid circular discs or 'flanges of a radius greater than the rolls by at least the width of the roll gap.
  • a disc is mounted on the roll shaft at one end of one roll and a second disc is mounted on the roll shaft at the other end of the other roll.
  • These discs or flanges are of a rigid type and are fitted against the opposing faces of the ends of the rolls.
  • the flanges tend to draw more metal powderinto the roll gap at the ends than flows by gravity .intorthe gap between the ends,-thus making it necessary torprovide rather elaborate feeding devices to obtain auniformflow of material from end'toend of the roll .gap.
  • Each .belt preferably, is of the endless type and is extended .over freely rotating'pulleys, or sheaves, which are adjustably mounted to permit close adjustment of the beltsa-gainst -the-opposing-facesofthe ends of'the rolls .with the axes of the lowermost pulleys mounted in the samelhorizontal plane, or slightly above, asthe axes of the rolls.
  • the improved apparatus of this invention for compacting metal and metal coated particles comprises-a pair of oppositely positioned rolls mounted on roll. shafts-for rotation in a horizontal plane, a roll gap between the rolls, and means for preventing leakage of metal particles from the ends of the roll gap which comprise .a freely rotatable endless belt mounted at each end of the roll gap, each of said beltshaving a surface maintained in frictional engagement withthe surfaces of the ends -of opposing rolls from a point aboveto the bottomof the said roll gap, and means for maintaining the exposed surface of each of said belts in frictional engagement with the surfaces of the opposing ends of the rolls.
  • FIGURE 1 is a perspective view of an end of apair of rolls of a roll compacting unit with'the housing and frameiremoved showing the belt assembly shifted to the right to expose the roll gap and the lower part of the feed'hopper assembly;
  • FIGURE 2 is a top plan view of the roll compacting unit with the beltsin place
  • FIGURE 3 is a front view showing the belts in their operative positions
  • FIGURE 4 is a detail view taken along the'line 4-4, FIGURE 3;
  • FIGURE 5 is a detail view taken along the line 5-5, FIGURE 4.
  • metal particles is intended to include, but is not necessarily limited .to, particles of .metal, metal alloy, composite metal and metal coated particles and compounds such as are produced by spray- 1 of conventional material, such as steel and, conventionally, are adjustably mounted in exactly opposing relationship in a horizontal plane to apply a pressure on the particulate material fed into the space between the rolls, or the roll gap, indicated by the numeral 24.
  • spray- 1 of conventional material, such as steel and, conventionally, are adjustably mounted in exactly opposing relationship in a horizontal plane to apply a pressure on the particulate material fed into the space between the rolls, or the roll gap, indicated by the numeral 24.
  • provision is made to increase or decrease the width of the roll gap thus to increase or reduce the thickness of the resulting strip or sheet, and to increase or reduce the pressure applied to the strip or sheet, thus to increase or reduce its green strength, adherency and density.
  • Metal particles are fed to the roll gap by gravity from a feed hopper through the feed throat 31. Provision can be made to increase or reduce the rate of flow of metal particles to the roll gap according to conventional practice.
  • a freely rotatable endless belt -40a is pressed against opposing surfaces of the ends of the rolls from a point above to the bottom of the roll gap.
  • a preferred arrange ment comprises a frame 41-41a which is secured to the frame in which the rolls 20-21 are mounted.
  • the belt 40-40a preferably is an endless V-belt extended over freely rotatable pulleys or sheaves 42-42a, 43-43a and 44-44:: which are adjustably secured to the frame 41-41a,
  • the forward pulleys 44-44 being mounted with their axes of rotation in the same horizontal plane as the axes of the rolls 20-21 or slightly above, and the forward pulleys 4343a being mounted substantially vertically above the pulleys 44-44a in a position such that the flat surfaces of the belts 40-40a are pressed in frictional engagement against the opposing faces of the ends of the rolls. Tension of the belts can be adjusted readily by adjustment of 1 the pulleys in their mounting slots, not shown, which are provided for that purpose in the frames.
  • each belt preferably is deeper than the grooves of the pulleys so that the fiat portions extend beyond the peripheries of the pulleys and the pulleys 43-43a and 44-44a are mounted such that their peripheries are spaced from the opposing ends of the rolls a distance less than the thickness of the belt so that the flat surfaces are pressed firmly against the opposing ends of the rolls.
  • FIGURES 1, 4 and 5 A preferred arrangement for controlling the rate at which metal particles are permitted to flow into the ends of the roll gap is illustrated in FIGURES 1, 4 and 5.
  • the ends of the feed throat 31 of the feed hopper are slotted in order to permit the belts to be pressed against the ends of the rolls.
  • a relatively thin strip 50, formed of rigid material such as steel, is secured to each of the lower ends of the feed hopper and overlies the slotted portions of the feed throat.
  • This strip also is formed with a slot 51 which overlies the 'slot in the feed throat but is of a width slightly less than the width of the flat surface of the belt. This allows the belt to be pressed firmly against the end of the rolls without danger of being jammed in the roll gap with excessive wear. Also, it prevents loss of metal powder through the space at the interface of the belt 40 and the strip 50.
  • a second, relatively thin strip 52 of rigid material is adjustably secured a green strip or sheet can be produced which has a predetermined unit weight profile across its width which to the lower part of feed hopper and underlies the strip 50.
  • the strip 52 is adjustable in a vertical plane so that it can be raised or lowered as desired to increase or reduce contact of the flat surface of the belt with the metal powder contained in the hopper.
  • the strip 52 can be provided with an elongated slot 60 and set screw 61 by means of which it can be adjustably secured relative to the belts 40-4051.
  • metal particles are fed into the hopper 30 and flow by gravity to the roll gap.
  • the strips 52 are adjusted to provide the desired rate of flow of particles to the edge zone of the gap.
  • the belts 40-40a are pressed firmly against the surfaces of the ends of the rolls from predetermined points above the roll gap to the bottom of the roll gap.
  • the belts are driven by the rolls with a minimum of wear. It is found that the quality of the marginal edges of the strip or sheet is improved if the surfaces of the belts are pressed as firmly as possible against the ends of the rolls.
  • the strip or sheet is formed with marginal edges which are of substantially uniform thickness and density with close control over the weight of metal particles per unit area in the edge zones.
  • a further advantage of the improved apparatus is that conforms to that profile which is found to produce the best results in subsequent treatment, such as in hot or cold rolling. For example, it is found when the belt exposure is set to provide a slightly higher density along the marginal edges, improved results are obtained in a following hot working treatment of the strip or sheet.
  • Crosssection profiles are obtained by plotting the weight of metal powder per unit area against the width of the strip or sheet. For example, we have produced strips in which the unit weight of the strip between the marginal edges was substantially constant at 7.6 grams, rising uniformly at the marginal. edges to 8 grams.
  • a desired profile could be obtained only by the distribution of the particles across the roll gap to produce a predetermined configuration by relatively complicated metal particle distributing devices or by shaping the surfaces of the rolls to produce the desired profile.
  • the improved roll compacting apparatus of this invention possesses a number of important advantages.
  • the rate of flow of metal particles to the ends of the roll gap can be positively controlled, without leakage from the ends of the roll gap, to produce a strip or sheet having a desired profile.
  • the marginal edges are clearly cut and What we claim as new and desire to protect by Letters Patent of the United States is:
  • Apparatus for compacting metal and metal coated particles which comprises a pair of oppositely positioned rolls mounted on roll shafts for rotation in a horizontal plane, a roll gap between the rolls, and means for preventing leakage of metal particles from the ends of the roll gap which comprises a freely rotatable endless belt mounted at each end of the roll gap; each belt having a surface maintained in frictional engagement with surfaces of the ends of opposing rolls from a point above to the bottom of the said roll gap; means for feeding metal particles to said roll gap; means for regulating the effective surface area of said belts in contact with the metal particles contained in said feeding means whereby the rate of feed of particles to the ends of said roll gap is controlled independently of the rate of feed of particles to the roll gap between the ends; and means for maintaining the exposed surface of each belt in frictional engagement with the surfaces of the opposing ends of said rolls.
  • Apparatus for compacting metal and metal coated particles which comprises: a pair of oppositely positioned rolls mounted on roll shafts for rotation in a horizontal plane and defining a roll gap therebetween; means for preventing leakage of metal particles from the ends of the roll gap which comprises a freely rotatable endless belt mounted at each end of the roll gap, each belt having a surface maintained in frictional engagement with surfaces of the ends of opposing rolls from a point above to the bottom of the roll gap; a feed hopper positioned above said rolls having a feed throat extending into said roll gap, means adjustable in a vertical plane between said feed throat and the portion of the belt above the roll gap for controlling the surface area of each belt exposed to the metal particles contained in said feed throat whereby the rate of flow of metal particles into the ends of said roll gap can be regulated; and means for maintaining the exposed surface of each belt in frictional engagement with exposed surfaces of the opposing rolls.
  • Apparatus for compacting metal and metal coated particles which comprises: a pair of oppositely positioned rolls mounted on roll shafts for rotation in a horizontal plane and defining a roll gap therebetween; means for preventing leakage of metal particles from the ends of the roll gap which comprises a pair of belt and pulley assemblies freely rotatable on axes perpendicular to the axes of rotation of said rolls, the periphery of one pulley being positioned at each end of one roll above the roll gap and the periphery of the other pulley being positioned at the bottom of the roll gap, each pair of pulleys being vertically aligned and spaced from the ends of the rolls a distance slightly less than the thickness of an endless belt extended thereover, the axis of rotation of each of the pulleys positioned at the bottom of the roll gap being in the same horizontal plane as the axes of rotation of the said rolls, a feed hopper communicated with the roll gap defined by said rolls and adapted to provide gravity feeding of metal particles to said roll gap, the
  • a rolling mill for compacting metal particles comprising, in combination: a pair of compacting rolls horizontally disposed in parallel, spaced-apart relationship and defining a roll gap therebetween; a belt and pulley assembly disposed at each end of said roll gap with the belts in frictional engagement with the ends of said rolls and providing belt contact with said rolls from a point above said roll gap to the bottom of said roll gap; a feed hopper in communication with said rolls and adapted to feed metal particles to said roll gap, the end walls of said hopper being disposed at either end of said roll gap and having openings formed therein for entry of said belts for contact with the ends of said rolls; and adjustable means for regulating the surface area of the belts exposed to the metal particles contained in said feed hopper whereby the rate of flow of said particles to the ends of the roll gap can be regulated.

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  • Engineering & Computer Science (AREA)
  • Manufacturing & Machinery (AREA)
  • Mechanical Engineering (AREA)
  • Powder Metallurgy (AREA)

Description

APPARATUS FOR ROLL COMPACTING METAL. AND METAL COATED PARTICLES Filed May 14, 1962 Aug. 18, 1964 T. KRANTZ ETAL 1 wa a w m mmm t m Z S wow 2 m Attorney Aug- 8, 4 r. KRANTZ ETAL APPARATUS FOR ROLL COMPACTING METAL. AND METAL COATED PARTICLES Filed May 14 1962 2 Sheets-Sheet 2 INVENTOR. 77b0r Kra 7217 BY 1 1/7216 6 [/1725 Attorney United States Patent 3,144,681 APPARATUS FQR ROLL COMPACTING METAL AND METAL COATED PARTICLES Tibor Krantz and Vilnis Silins, Fort Saskatchewan, Alherta, Canada, assignors to Sherritt Gordon Mines Limited, Toronto, Ontario, Canada, a company of Canada Filed May 14, 1962, Ser. No. 194,380 4 Claims. (Cl. 18-9) This invention relates to improvements in a roll compacting unit of the type employed for roll compacting metal powder into sheets and strips. The invention is particularly directed to the provision of improved means for confining metal powder to the roll gap and for closely controlling the density and compactness across the width of the strip or sheet.
stantially uniform thickness, of substantially uniform density between its longitudinal marginal edges, and with closely controlled weight of metal powder per unit area in the marginal edge zones.
There is a problem in rolling metal powder by this method if the metal powder, during compaction, is not confined along the outside edges of the rolls in that metal powder tends to flow or leak from the edges of the rolls with the result that the longitudinal edges of the sheet or strip are not compacted to the same density, coherence and thickness as is the central portion thereof. Thus, compacted shapes formed without some provision for confining .the metal powder within the roll gap must be trimmed along the edges, thereby necessitating an additional step in the overall process and resulting in the production of an appreciable percentage of waste material in addition to non-uniformity of physical characteristics of the product across its width.
Devices are known and used for confining the metal powder within the roll gap during the compacting operation and thus preventing flow or leakage from the ends of the rolls. One known device involves the use of flexible discs or flanges mounted at each end of one of the rolls or at one end of one roll and at the opposite end of the other roll. The so-mounted discs or flanges have a radius greater than the roll on which they are mounted by at least the width of the roll gap. The discs or flanges are pressed against the opposing faces of the ends of the roll at the roll gap and confine the metal powder within the roll gap during compaction of the particles, thereby preventing leakage of metal powder from the ends of the rolls. In one known arrangement, slightly flexible discs are used which are pressed against the opposing faces of the ends of the rolls at the roll gap and pressed away from the opposing faces of the ends of the rolls at a point beyond the roll gap, thus facilitating discharge of the green strip or sheet from the roll gap without friction or bindmg.
A further known arrangement for confining metal powder to the roll gap involves two rigid circular discs or 'flanges of a radius greater than the rolls by at least the width of the roll gap. A disc is mounted on the roll shaft at one end of one roll and a second disc is mounted on the roll shaft at the other end of the other roll. These discs or flanges are of a rigid type and are fitted against the opposing faces of the ends of the rolls.
The known arrangements are satisfactory insofar as confining the metal powder to the roll gap is concerned "ice However, it is sufficient forthe discs tobind against the opposing faces ofthe ends of the rolls and .wear grooves in the opposing faces of the discs. .These. grooves at least form defects 'in thelongitudinal edges of the strip or sheet and may interfere with the smooth. and unimpeded discharge-of the compacted product from theroll gap. Theunit must be shut down atfrequentintervals to replace the flanges, which'is costly and time :consuming.
Also, the flanges tend to draw more metal powderinto the roll gap at the ends than flows by gravity .intorthe gap between the ends,-thus making it necessary torprovide rather elaborate feeding devices to obtain auniformflow of material from end'toend of the roll .gap.
We have found that problems 'of producing green strip or sheet from metal or metal coated particles-of substantially uniform density and thicknessbetweenthe longitudinal marginal edges can be overcome -by :providing a rotatable belt .assembly at each end of the -rolls, each belt having a flat surface pressed against "opposing surfaces of the ends of the rolls'from a point above the roll gap to the bottom of the roll gap. 'Each .belt, preferably, is of the endless type and is extended .over freely rotating'pulleys, or sheaves, which are adjustably mounted to permit close adjustment of the beltsa-gainst -the-opposing-facesofthe ends of'the rolls .with the axes of the lowermost pulleys mounted in the samelhorizontal plane, or slightly above, asthe axes of the rolls.
The improved apparatus of this invention for compacting metal and metal coated particles comprises-a pair of oppositely positioned rolls mounted on roll. shafts-for rotation in a horizontal plane, a roll gap between the rolls, and means for preventing leakage of metal particles from the ends of the roll gap which comprise .a freely rotatable endless belt mounted at each end of the roll gap, each of said beltshaving a surface maintained in frictional engagement withthe surfaces of the ends -of opposing rolls from a point aboveto the bottomof the said roll gap, and means for maintaining the exposed surface of each of said belts in frictional engagement with the surfaces of the opposing ends of the rolls.
An understanding of the improved roll compacting unit of this invention can be obtained from the'followingdescription, reference being made to the accompanying drawing in which:
FIGURE 1 is a perspective view of an end of apair of rolls of a roll compacting unit with'the housing and frameiremoved showing the belt assembly shifted to the right to expose the roll gap and the lower part of the feed'hopper assembly;
FIGURE 2 is a top plan view of the roll compacting unit with the beltsin place;
FIGURE 3 is a front view showing the belts in their operative positions;
FIGURE 4 is a detail view taken along the'line 4-4, FIGURE 3; and
FIGURE 5 is a detail view taken along the line 5-5, FIGURE 4.
Like reference characters-refer to like parts throughout the description of the invention and the drawing.
As used herein, the term metal particles is intended to include, but is not necessarily limited .to, particles of .metal, metal alloy, composite metal and metal coated particles and compounds such as are produced by spray- 1 of conventional material, such as steel and, conventionally, are adjustably mounted in exactly opposing relationship in a horizontal plane to apply a pressure on the particulate material fed into the space between the rolls, or the roll gap, indicated by the numeral 24. Conventionally, provision is made to increase or decrease the width of the roll gap, thus to increase or reduce the thickness of the resulting strip or sheet, and to increase or reduce the pressure applied to the strip or sheet, thus to increase or reduce its green strength, adherency and density.
Metal particles are fed to the roll gap by gravity from a feed hopper through the feed throat 31. Provision can be made to increase or reduce the rate of flow of metal particles to the roll gap according to conventional practice.
A freely rotatable endless belt -40a is pressed against opposing surfaces of the ends of the rolls from a point above to the bottom of the roll gap. A preferred arrange ment comprises a frame 41-41a which is secured to the frame in which the rolls 20-21 are mounted. The belt 40-40a preferably is an endless V-belt extended over freely rotatable pulleys or sheaves 42-42a, 43-43a and 44-44:: which are adjustably secured to the frame 41-41a,
the forward pulleys 44-44:: being mounted with their axes of rotation in the same horizontal plane as the axes of the rolls 20-21 or slightly above, and the forward pulleys 4343a being mounted substantially vertically above the pulleys 44-44a in a position such that the flat surfaces of the belts 40-40a are pressed in frictional engagement against the opposing faces of the ends of the rolls. Tension of the belts can be adjusted readily by adjustment of 1 the pulleys in their mounting slots, not shown, which are provided for that purpose in the frames. The V- shaped portion of each belt preferably is deeper than the grooves of the pulleys so that the fiat portions extend beyond the peripheries of the pulleys and the pulleys 43-43a and 44-44a are mounted such that their peripheries are spaced from the opposing ends of the rolls a distance less than the thickness of the belt so that the flat surfaces are pressed firmly against the opposing ends of the rolls.
An important feature of the improved apparatus of this invention is that means can be provided to control the flow of metal particles to the ends of the roll gap, thus to control the profile of the strip or sheet emerging from the roll gap as described in detail hereinafter. A preferred arrangement for controlling the rate at which metal particles are permitted to flow into the ends of the roll gap is illustrated in FIGURES 1, 4 and 5. The ends of the feed throat 31 of the feed hopper are slotted in order to permit the belts to be pressed against the ends of the rolls. A relatively thin strip 50, formed of rigid material such as steel, is secured to each of the lower ends of the feed hopper and overlies the slotted portions of the feed throat. This strip also is formed with a slot 51 which overlies the 'slot in the feed throat but is of a width slightly less than the width of the flat surface of the belt. This allows the belt to be pressed firmly against the end of the rolls without danger of being jammed in the roll gap with excessive wear. Also, it prevents loss of metal powder through the space at the interface of the belt 40 and the strip 50. A second, relatively thin strip 52 of rigid material is adjustably secured a green strip or sheet can be produced which has a predetermined unit weight profile across its width which to the lower part of feed hopper and underlies the strip 50. The strip 52 is adjustable in a vertical plane so that it can be raised or lowered as desired to increase or reduce contact of the flat surface of the belt with the metal powder contained in the hopper. The strip 52 can be provided with an elongated slot 60 and set screw 61 by means of which it can be adjustably secured relative to the belts 40-4051.
In the operation of the improved roll compacting unit of this invention, metal particles are fed into the hopper 30 and flow by gravity to the roll gap. The strips 52 are adjusted to provide the desired rate of flow of particles to the edge zone of the gap. The belts 40-40a are pressed firmly against the surfaces of the ends of the rolls from predetermined points above the roll gap to the bottom of the roll gap. The belts are driven by the rolls with a minimum of wear. It is found that the quality of the marginal edges of the strip or sheet is improved if the surfaces of the belts are pressed as firmly as possible against the ends of the rolls.
The downward motion of the belts in contact with the ends of the rolls combined with the flow characteristics of the metal particles causes metal particles to be drawn downwardly at the ends of the roll gap. As the belts are pressed firmly against the ends of the rolls at the point of compaction and for a short distance above, very little,
if any, particles escape from the ends of the roll gap. As a result, the strip or sheet is formed with marginal edges which are of substantially uniform thickness and density with close control over the weight of metal particles per unit area in the edge zones. By means of the strips 52, it is possible to control the amount of belt surface exposed to the particles in the hopper 30 and thus vary the amount of particles drawn into the ends of the roll gap. By withdrawing the belts from contact with the ends of the rolls at the bottom of the roll gap, there is no binding on the marginal edges of the strip or sheet which is permitted to discharge from the roll gap as it is formed without danger of deformation.
A further advantage of the improved apparatus is that conforms to that profile which is found to produce the best results in subsequent treatment, such as in hot or cold rolling. For example, it is found when the belt exposure is set to provide a slightly higher density along the marginal edges, improved results are obtained in a following hot working treatment of the strip or sheet. Crosssection profiles are obtained by plotting the weight of metal powder per unit area against the width of the strip or sheet. For example, we have produced strips in which the unit weight of the strip between the marginal edges was substantially constant at 7.6 grams, rising uniformly at the marginal. edges to 8 grams. Heretofore, a desired profile could be obtained only by the distribution of the particles across the roll gap to produce a predetermined configuration by relatively complicated metal particle distributing devices or by shaping the surfaces of the rolls to produce the desired profile.
The improved roll compacting apparatus of this invention possesses a number of important advantages. The rate of flow of metal particles to the ends of the roll gap can be positively controlled, without leakage from the ends of the roll gap, to produce a strip or sheet having a desired profile. The marginal edges are clearly cut and What we claim as new and desire to protect by Letters Patent of the United States is:
1. Apparatus for compacting metal and metal coated particles which comprises a pair of oppositely positioned rolls mounted on roll shafts for rotation in a horizontal plane, a roll gap between the rolls, and means for preventing leakage of metal particles from the ends of the roll gap which comprises a freely rotatable endless belt mounted at each end of the roll gap; each belt having a surface maintained in frictional engagement with surfaces of the ends of opposing rolls from a point above to the bottom of the said roll gap; means for feeding metal particles to said roll gap; means for regulating the effective surface area of said belts in contact with the metal particles contained in said feeding means whereby the rate of feed of particles to the ends of said roll gap is controlled independently of the rate of feed of particles to the roll gap between the ends; and means for maintaining the exposed surface of each belt in frictional engagement with the surfaces of the opposing ends of said rolls.
2. Apparatus for compacting metal and metal coated particles which comprises: a pair of oppositely positioned rolls mounted on roll shafts for rotation in a horizontal plane and defining a roll gap therebetween; means for preventing leakage of metal particles from the ends of the roll gap which comprises a freely rotatable endless belt mounted at each end of the roll gap, each belt having a surface maintained in frictional engagement with surfaces of the ends of opposing rolls from a point above to the bottom of the roll gap; a feed hopper positioned above said rolls having a feed throat extending into said roll gap, means adjustable in a vertical plane between said feed throat and the portion of the belt above the roll gap for controlling the surface area of each belt exposed to the metal particles contained in said feed throat whereby the rate of flow of metal particles into the ends of said roll gap can be regulated; and means for maintaining the exposed surface of each belt in frictional engagement with exposed surfaces of the opposing rolls.
3. Apparatus for compacting metal and metal coated particles which comprises: a pair of oppositely positioned rolls mounted on roll shafts for rotation in a horizontal plane and defining a roll gap therebetween; means for preventing leakage of metal particles from the ends of the roll gap which comprises a pair of belt and pulley assemblies freely rotatable on axes perpendicular to the axes of rotation of said rolls, the periphery of one pulley being positioned at each end of one roll above the roll gap and the periphery of the other pulley being positioned at the bottom of the roll gap, each pair of pulleys being vertically aligned and spaced from the ends of the rolls a distance slightly less than the thickness of an endless belt extended thereover, the axis of rotation of each of the pulleys positioned at the bottom of the roll gap being in the same horizontal plane as the axes of rotation of the said rolls, a feed hopper communicated with the roll gap defined by said rolls and adapted to provide gravity feeding of metal particles to said roll gap, the end walls of said hopper being disposed at either end of said roll gap and having openings formed therein for entry of said belts; and means for varying the size of said openings in the end walls whereby the rate of flow of particles into the ends of said roll gap can be regulated.
4. A rolling mill for compacting metal particles comprising, in combination: a pair of compacting rolls horizontally disposed in parallel, spaced-apart relationship and defining a roll gap therebetween; a belt and pulley assembly disposed at each end of said roll gap with the belts in frictional engagement with the ends of said rolls and providing belt contact with said rolls from a point above said roll gap to the bottom of said roll gap; a feed hopper in communication with said rolls and adapted to feed metal particles to said roll gap, the end walls of said hopper being disposed at either end of said roll gap and having openings formed therein for entry of said belts for contact with the ends of said rolls; and adjustable means for regulating the surface area of the belts exposed to the metal particles contained in said feed hopper whereby the rate of flow of said particles to the ends of the roll gap can be regulated.
References Cited in the file of this patent UNITED STATES PATENTS 1,540,650 Prather June 2, 1925 2,932,852 Melville et a1 Apr. 19, 1960 3,010,148 Dasher Nov. 28, 1961 3,065,500 Berner Nov. 27, 1962

Claims (1)

  1. 2. APPARATUS FOR COMPACTING METAL AND METAL COATED PARTICLES WHICH COMPRISES: A PAIR OF OPPOSITELY POSITIONED ROLLS MOUNTED ON ROLL SHAFTS FOR ROTATION IN A HORIZONTAL PLANE AND DEFINING A ROLL GAP THEREBETWEEN; MEANS FOR PREVENTING LEAKAGE OF METAL PARTICLES FROM THE ENDS OF THE ROLL GAP WHICH COMPRISES A FREELY ROTATABLE ENDLESS BELT MOUNTED AT EACH END OF THE ROLL GAP, EACH BELT HAVING A SURFACE MAINTAINED IN FRICTIONAL ENGAGEMENT WITH SURFACES OF THE ENDS OF OPPOSING ROLLS FROM A POINT ABOVE TO THE BOTTOM OF THE ROLL GAP; A FEED HOPPER POSITIONED ABOVE SAID ROLLS HAVING A FEED THROAT EXTENDING INTO SAID ROLL GAP, MEANS ADJUSTABLE IN A VERTICAL PLANE BETWEEN SAID FEED THROAT AND THE PORTION OF THE BELT ABOVE THE ROLL GAP FOR CONTROLLING THE SURFACE AREA OF EACH BELT EXPOSED TO THE METAL PARTICLES CONTAINED IN SAID FEED THROAT WHEREBY THE RATE OF FLOW OF METAL PARTICLES INTO THE ENDS OF SAID ROLL GAP CAN BE REGULATED; AND MEANS FOR MAINTAINING THE EXPOSED SURFACE OF ACH BELT IN FRICTIONAL ENGAGEMENT WITH EXPOSED SURFACES OF THE OPPOSING ROLLS.
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Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3203045A (en) * 1962-03-22 1965-08-31 Mannesmann Ag Rolling mills for metal powder rolling
US3277527A (en) * 1964-05-23 1966-10-11 Philips Corp Method and apparatus for manufacturing wire from powder material
US3298060A (en) * 1963-06-07 1967-01-17 Martin H Michalak Methods and apparatus for compacting powdered metal to form strips
DE1583733B1 (en) * 1966-12-01 1972-05-31 British Iron Steel Research METHOD AND DEVICE FOR THE PRODUCTION OF A METAL STRIP BY POWDER ROLLING
US3860376A (en) * 1973-12-03 1975-01-14 United States Steel Corp Feed distributor for roll briquetting machine
US4144009A (en) * 1976-07-16 1979-03-13 British Steel Corporation Apparatus for production of metal strip
US4231729A (en) * 1979-10-09 1980-11-04 Huntington Alloys Inc. Powder rolling apparatus
US20050084560A1 (en) * 2003-10-20 2005-04-21 Roland Edward J. Powder compacting apparatus for continuous pressing of pharmaceutical powder

Citations (4)

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Publication number Priority date Publication date Assignee Title
US1540650A (en) * 1923-11-09 1925-06-02 Robert F J Prather Pressure machine for forming articles from plastic materials
US2932852A (en) * 1957-05-03 1960-04-19 Ici Ltd Apparatus and process for rolling metal
US3010148A (en) * 1958-01-13 1961-11-28 Crucible Steel Co America Rolling mill
US3065500A (en) * 1958-12-11 1962-11-27 Wmb Internat A B Method and apparatus for making coherent bodies from expandable granules of thermoplastic

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1540650A (en) * 1923-11-09 1925-06-02 Robert F J Prather Pressure machine for forming articles from plastic materials
US2932852A (en) * 1957-05-03 1960-04-19 Ici Ltd Apparatus and process for rolling metal
US3010148A (en) * 1958-01-13 1961-11-28 Crucible Steel Co America Rolling mill
US3065500A (en) * 1958-12-11 1962-11-27 Wmb Internat A B Method and apparatus for making coherent bodies from expandable granules of thermoplastic

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3203045A (en) * 1962-03-22 1965-08-31 Mannesmann Ag Rolling mills for metal powder rolling
US3298060A (en) * 1963-06-07 1967-01-17 Martin H Michalak Methods and apparatus for compacting powdered metal to form strips
US3277527A (en) * 1964-05-23 1966-10-11 Philips Corp Method and apparatus for manufacturing wire from powder material
DE1583733B1 (en) * 1966-12-01 1972-05-31 British Iron Steel Research METHOD AND DEVICE FOR THE PRODUCTION OF A METAL STRIP BY POWDER ROLLING
US3860376A (en) * 1973-12-03 1975-01-14 United States Steel Corp Feed distributor for roll briquetting machine
US4144009A (en) * 1976-07-16 1979-03-13 British Steel Corporation Apparatus for production of metal strip
US4231729A (en) * 1979-10-09 1980-11-04 Huntington Alloys Inc. Powder rolling apparatus
US20050084560A1 (en) * 2003-10-20 2005-04-21 Roland Edward J. Powder compacting apparatus for continuous pressing of pharmaceutical powder
US7247013B2 (en) * 2003-10-20 2007-07-24 Roland Edward J Powder compacting apparatus for continuous pressing of pharmaceutical powder

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