US2887276A - Shell type pulpstone - Google Patents

Shell type pulpstone Download PDF

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US2887276A
US2887276A US654796A US65479657A US2887276A US 2887276 A US2887276 A US 2887276A US 654796 A US654796 A US 654796A US 65479657 A US65479657 A US 65479657A US 2887276 A US2887276 A US 2887276A
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cylinder
grinding
blocks
pulpstone
fluid
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US654796A
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Rudolf G Minarik
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Kimberly Clark Corp
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Kimberly Clark Corp
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B24GRINDING; POLISHING
    • B24DTOOLS FOR GRINDING, BUFFING OR SHARPENING
    • B24D5/00Bonded abrasive wheels, or wheels with inserted abrasive blocks, designed for acting only by their periphery; Bushings or mountings therefor
    • B24D5/10Bonded abrasive wheels, or wheels with inserted abrasive blocks, designed for acting only by their periphery; Bushings or mountings therefor with cooling provisions, e.g. with radial slots
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B24GRINDING; POLISHING
    • B24DTOOLS FOR GRINDING, BUFFING OR SHARPENING
    • B24D5/00Bonded abrasive wheels, or wheels with inserted abrasive blocks, designed for acting only by their periphery; Bushings or mountings therefor
    • B24D5/06Bonded abrasive wheels, or wheels with inserted abrasive blocks, designed for acting only by their periphery; Bushings or mountings therefor with inserted abrasive blocks, e.g. segmental

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  • This invention relates to machines for grinding wood and more particularly to pulpstones used for producing wood pulp for use in the paper making industry.
  • the present commercial pulpstones are generally of a construction comprising a plurality of abrasive material grinding blocks secured to a solid concrete core or an imperforate metal driun. Because of this construction the only possible way to flush away the ground material from the grinding interface and control the temperature thereat is by the external application of some suitable fluid such as water. However, this method is usually unsatisfactory because it is generally not possible to apply the fluid directly to the portion of the pulpstone at which the grinding takes place. Consequently a considerable portion of the fluid is lost before it reaches the grinding portion.
  • the fluid also serves to lubricate the pulpstone at its grinding interface.
  • lubrication By lubrication the undesirable frictional aspect of grinding is substantially eliminated while the cutting ability of the stone is retained.
  • lubrication is particularly important because it not only decreases the amount of energy required to rotate the pulpstone but it also results in improved ground wood quality. Thus it is apparent that as the amount of lubricant applied to the grinding interface is increased, the efiiciency of the grinding operation will tend to increase.
  • a grinding stone comprised of a plurality of arcuate abrasive grinding blocks mounted on a hollow cylindrical drum.
  • a drum may be supported at its ends by unitary flanges and shafts that may be fabricated with considerably less difliculty than heretofore possible.
  • Another object is to provide a hollow grinding stone provided with radial passages through which fluid will flow to. lubricate the interfaee between the plupwood 2,887,276 Patented May 19, 1959.
  • a still further object is to provide a grinding stone in which the individual grinding blocks are secured in such a manner that they may be easily repaired or replaced.
  • a still further object is to provide a grinding stone Whose temperature may be effectively controlled and which has means for keeping the grinding surface at the pulpwood-grinding interface relatively clean by introduction of fluid into the center of the stone.
  • the invention may be described as a pulpstone comprised of a hollow metal cylindrical drum to which are secured a plurality of arcuately shaped grinding blocks.
  • the in-I dividual grinding blocks are spaced from each other and the spaces are aligned with radial passages in the drum through which a lubricatingfluid may flow.
  • FIG. 1 is a partially sectioned view of the pulpstone embodying the invention.
  • Figure 2 is a section taken along the line 2-2 in Figure 1.
  • Figure 3 is a section taken along the line 33 in Figure 2.
  • a metal cylinder generally denoted by the numeral 10.
  • the cylinder may be fabricated from any one of numerous metals that have suflicient strength for this type of con.- struction.
  • One such metal is cast iron of the type called nodular iron.
  • the stub shaft members 20' and 21 comprising the integrated shaft 31 and flange 13, the latter being of the same diameter as the fiange l'l on the cylinder 10.
  • the stub shaft flanges 13 are provided with a like number of circumferentially spaced holes 33' which are aligned with the flange holes 12 to receive the bolts 14.
  • the stub shaft 21 is axially bored to permit theingress of fluid from a suitable source of supply (not shown)- Aflixed to the outer end of the stubshaft 21 is a nonrotating conduit 15 through which the fluid is supplied from a suitable source of supply to an adjustable showerf pipe 32 located axially within the pulpstone.
  • the shower pipe 32 may be rotatably indexed so that the fluid may be directed in any desiredradial direction.
  • abrasive material grinding blocks 18 Secured to the outer periphery of the cylinder 10 are a plurality of abrasive material grinding blocks 18.
  • One way of securing the blocks 18 is by the eye-bolts 17 which extend through the radial passages 16 in the cylinder; 10 and hold the blocks under tension by means of a wrist pin connection with crossrod 25.
  • the radial passages. are regularly spaced about the cylinder 10 so that the blocks form a regular pattern as best shown in Figure 1.
  • the cylinder is also provided with a series of regu larly spaced radial ducts 29 through which the surface lubricating fluid flows as will be apparent later on.
  • the abrasive material grinding blocks 18 in their preferred embodiment are rectangular in shape and are provided: with the concentric arcuate faces Hand 23 as is best shown in Figure 2.
  • the arcuate face 23 having the shortest radius is provided with a recess 24 which accommodates the eye-bolt 17.
  • Aligned with the eye in the eye-bolt 17 is the hole 19 for receiving the crossrod 25'.
  • the eye-bolt 17 is held Within the block 18 by the wrist pin connection between it and the crossrod 25.
  • the blocks are of such a size that they inay' be secured to the cylinder by a single bolt.
  • This construction is preferred in order to eliminate mounting difiiculties such as uneven stresses that usually are imparted to the individual blocks if more than onebolt is used. It has also been found desirable to preload the bolts, the amount of the preload depending upon the velocity at which the stone is to be operated.
  • a uniform layer 27 of self-hardening cement of some suitable type one particularly adapted for this use be ing' a catalytic type resin such as an epoxy resin called Floor-Nu manufactured by the Steelcote Mfg. Co. of St. Louis, Missouri.
  • the purpose of the layer 27 of cement is to provide firm contact between the block 18 and the cylinder 10 and to eliminate any unevenness between block and cylinder which occurs in the manufacture of these elements. The cement need not adhere to the cylinder.
  • the individual blocks 18 are mounted in a regular pattern with a space 28 between each of the blocks.
  • the space 28 is open to the radial passages 29 in the cylinder 10. These passages permitthe flow of fluid from the interior of the cylinder to the surface of the blocks 18.
  • the fluid as it enters the stub shaft 21, will flow to the rim due to the centrifugal force, and will be forced out through the passages 29 into the spaces 28 between the blocks.
  • the spaces 28 are completely free of any grouting material; however, it is conceivable that the spaces 28 may be partially filled with such a material but with ample passageway for the flow of fluid.
  • the fluid serves to control the temperature of the blocks 18 and prevent undesirable degrading of the pulp by excessive temperature. Moreover, the fluid lubricates the blocks 18 and serves to flush away the ground material from the interface between the pulpwood and the grinding surface. This is particularly important for the reason that if the pulp is reground, its quality will be lessened.
  • the temperature of the fluid can be controlled to effect additional gains in pulp quality. It has been noted that grinding at higher temperature usually results in groundwood pulp of improved quality. However, under higher temperature operation there is more danger of charring or burning if the grinding surface is not adequately lubricated in the grinding zone. Steam may also be passed into the cylinder and out through the radial passages 29 onto the blocks 18.
  • the blocks 18 are mounted in alternating rows as is usual in pulpstone construction.
  • the purpose of the alternating rows is to prevent the grooving of the pulpwood that would occur if the spaces were continuous about the circumference of the pulpstone.
  • the assembly of a pulpstone shown hereinbefore will now be briefly described.
  • the self-hardening cement is first applied to the inner surface of the grinding blocks andthen the blocks are set in place.
  • the bolts are tightened just enough to bed down the blocks securely in the cement.
  • the bolts are preloaded to approximately 4,000 pounds.
  • the pulpstone is then balanced on a lathe and is run for several hours with a reduced grinding load to bring it up to temperature.
  • one of the blocks 18 should become damaged, it may be readily replaced by removing the nut 30 from the bolt 17 to release the block from the cylinder 10. A new block may then be secured into position, and if necessary, the pulpstone may be balanced on a lathe. If the entire pulpstone should become worn to a point that it is no longer efiective, all of the blocks 18 may be removed and new blocks substituted therefor. The cylinder 10 may be re-used, thus resulting in a substantial savings incost.
  • a pulpstone is provided that may be effectively lubricated and have its operating temperature effectively controlled by a fluid introduced into the interior of the stone.
  • This construction is economical to build and maintain, and at the same time results in a much higher quality of pulp than heretofore obtainable by using other types of pulpstones.
  • a pulpstone comprising a hollow metal cylinder, the inside of which is adapted to be connected to a source of water, a plurality of spaced substantially radial passages in said cylinder, a plurality of spaced abrasive material grinding blocks secured to the outer periphery of said cylinder in which said radial passages are substantially aligned with the spaces between said grinding blocks, and means for securing said grinding blocks to said cylinder, said means being positioned so that the water can flow relatively freely through said radial passages and said spaces.
  • a pulpstone comprising a hollow metal cylinder, the inside of which is adapted to be connected to a source of water, shaft means for rotatably supporting said cylinder, a plurality of spaced substantially radial passages in said cylinder, a plurality of spaced abrasive material grinding blocks secured to the outer periphery of said cylinder in which said radial passages are aligned with the spaces between said grindnig blocks, and means for securing said grinding blocks to said cylinder, said means being positioned so that the water can flow relatively freely through said radial passages and said spaces.
  • a pulpstone comprising a hollow metal cylinder
  • a coaxial stub shaft secured to each end of said hollow cylinder for rotatably supporting the same, at least 3 one of said shafts being bored to permit water to be induced into said hollow cylinder, a plurality of spaced substantially radial passages in said cylinder, a plurality of spaced abrasive material grinding blocks secured to the outer periphery of said cylinder in which said radial passages are aligned with the spaces between said grinding blocks, and means for securing said grinding blocks to said cylinder, said means being positioned so that the water can flow relatively freely through said radial pas-' sages and said spaces.
  • a pulpstone comprising a hollow metal cylinder
  • a coaxial stub shaft secured to each end of said hollow cylinder for rotatably supporting the same, at least one of said shafts being bored to permit water to be induced into said hollow cylinder, a plurality of spaced substantially radial passages in said cylinder, a plurality of spaced abrasive material grinding blocks secured to the outer periphery of said cylinder in which said radial passages are aligned with the spaces between said grinding blocks, and mechanical means for securing said grinding blocks to said hollow cylinder, said means being positioned so that the water can flow relatively freely through said radial passages and said spaces.
  • a pulpstone comprising a hollow metal cylinder

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  • Mechanical Engineering (AREA)
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Description

May 19, 1959 R. MINARIK 2,887,276
SHELL TYPE PULPSTONE Filed April 24, 1957 United States Patent O SHELL TYPE PULPSTONE Rudolf G. Minarik, Menasha, Wis., assignor to Kimberly Clark Corporation, Neenah, Wis., a corporation of Delaware Application April 24, 1957, Serial No. 654,796
Claims. (Cl. 241-67) This invention relates to machines for grinding wood and more particularly to pulpstones used for producing wood pulp for use in the paper making industry.
The present commercial pulpstones are generally of a construction comprising a plurality of abrasive material grinding blocks secured to a solid concrete core or an imperforate metal driun. Because of this construction the only possible way to flush away the ground material from the grinding interface and control the temperature thereat is by the external application of some suitable fluid such as water. However, this method is usually unsatisfactory because it is generally not possible to apply the fluid directly to the portion of the pulpstone at which the grinding takes place. Consequently a considerable portion of the fluid is lost before it reaches the grinding portion.
If the ground Wood is not flushed away promptly from between the grinder-pulpwood interface, some of it will be reground and portions of it will tend to fill and glaze the grinding surface, thereby reducing the efiiciency of the pulpstone. Furthermore, regrinding degrades the plup to some extent and produces a poor quality of paper. Due to the solid construction of the prior art pulpstones, it is difficult to flush the ground material from the pulpstone with the present external type showers to prevent it from being reground.
The fluid also serves to lubricate the pulpstone at its grinding interface. By lubrication the undesirable frictional aspect of grinding is substantially eliminated while the cutting ability of the stone is retained. In grinding wood, lubrication is particularly important because it not only decreases the amount of energy required to rotate the pulpstone but it also results in improved ground wood quality. Thus it is apparent that as the amount of lubricant applied to the grinding interface is increased, the efiiciency of the grinding operation will tend to increase.
In order to provide means for rotation of a solid stone, it is necessary to insert a shaft or axle through the stone. Such a shaft is diflicult to nonrotatably secure to the stone and at the same time must bear its entire weight plus the major load exerted by the pressure of the plupwood against the stone. Thus the shaft must be of considerable size in order to withstand these loads and generally is very expensive because it must of necessity be a nearly perfect forging.
It is an object to provide a grinding stone comprised of a plurality of arcuate abrasive grinding blocks mounted on a hollow cylindrical drum. By this means the possibility of faulty construction is reduced, a more precise construction is obtained, and at the same time a much more efficient structure is provided. Such a drum may be supported at its ends by unitary flanges and shafts that may be fabricated with considerably less difliculty than heretofore possible.
Another object is to provide a hollow grinding stone provided with radial passages through which fluid will flow to. lubricate the interfaee between the plupwood 2,887,276 Patented May 19, 1959.
and grinding surface and control the temperature of the grinding blocks.
A still further object is to provide a grinding stone in which the individual grinding blocks are secured in such a manner that they may be easily repaired or replaced.
A still further object is to provide a grinding stone Whose temperature may be effectively controlled and which has means for keeping the grinding surface at the pulpwood-grinding interface relatively clean by introduction of fluid into the center of the stone. Briefly the invention may be described as a pulpstone comprised of a hollow metal cylindrical drum to which are secured a plurality of arcuately shaped grinding blocks. The in-I dividual grinding blocks are spaced from each other and the spaces are aligned with radial passages in the drum through which a lubricatingfluid may flow. Other objects of the invention will be apparent upon development of the specification with reference to the drawings.
In the drawings:
Figure 1 is a partially sectioned view of the pulpstone embodying the invention.
Figure 2 is a section taken along the line 2-2 in Figure 1.
Figure 3 is a section taken along the line 33 in Figure 2.
Referring now to Figure 1, there is shown a metal cylinder generally denoted by the numeral 10. The cylinder may be fabricated from any one of numerous metals that have suflicient strength for this type of con.- struction. One such metal is cast iron of the type called nodular iron. There is shown at each end of the cylinder an inwardly directed flange 11 provided witha plurality of circumferentially spaced holes 12. Secured to the flanges 11 are the stub shaft members 20' and 21 comprising the integrated shaft 31 and flange 13, the latter being of the same diameter as the fiange l'l on the cylinder 10. The stub shaft flanges 13 are provided with a like number of circumferentially spaced holes 33' which are aligned with the flange holes 12 to receive the bolts 14. i
The stub shaft 21 is axially bored to permit theingress of fluid from a suitable source of supply (not shown)- Aflixed to the outer end of the stubshaft 21 is a nonrotating conduit 15 through which the fluid is supplied from a suitable source of supply to an adjustable showerf pipe 32 located axially within the pulpstone. The shower pipe 32 may be rotatably indexed so that the fluid may be directed in any desiredradial direction.
Secured to the outer periphery of the cylinder 10 are a plurality of abrasive material grinding blocks 18. One way of securing the blocks 18 is by the eye-bolts 17 which extend through the radial passages 16 in the cylinder; 10 and hold the blocks under tension by means of a wrist pin connection with crossrod 25. The radial passages. are regularly spaced about the cylinder 10 so that the blocks form a regular pattern as best shown in Figure 1. The cylinder is also provided with a series of regu larly spaced radial ducts 29 through which the surface lubricating fluid flows as will be apparent later on. The abrasive material grinding blocks 18 in their preferred embodiment are rectangular in shape and are provided: with the concentric arcuate faces Hand 23 as is best shown in Figure 2. The arcuate face 23 having the shortest radius is provided with a recess 24 which accommodates the eye-bolt 17. Aligned with the eye in the eye-bolt 17 is the hole 19 for receiving the crossrod 25'. Thus, the eye-bolt 17 is held Within the block 18 by the wrist pin connection between it and the crossrod 25. Obviously there are numerous other means for securing the bolt 17 to the block 18 or for" that matter fotjise i curing the block 18 to the cylinder 10'; In the preferred embodiment the blocks are of such a size that they inay' be secured to the cylinder by a single bolt. This construction is preferred in order to eliminate mounting difiiculties such as uneven stresses that usually are imparted to the individual blocks if more than onebolt is used. It has also been found desirable to preload the bolts, the amount of the preload depending upon the velocity at which the stone is to be operated.
It has been found desirable to coat the face 23 with a uniform layer 27 of self-hardening cement of some suitable type, one particularly adapted for this use be ing' a catalytic type resin such as an epoxy resin called Floor-Nu manufactured by the Steelcote Mfg. Co. of St. Louis, Missouri. The purpose of the layer 27 of cement is to provide firm contact between the block 18 and the cylinder 10 and to eliminate any unevenness between block and cylinder which occurs in the manufacture of these elements. The cement need not adhere to the cylinder.
As shown in the drawings, the individual blocks 18 are mounted in a regular pattern with a space 28 between each of the blocks. The space 28 is open to the radial passages 29 in the cylinder 10. These passages permitthe flow of fluid from the interior of the cylinder to the surface of the blocks 18. The fluid, as it enters the stub shaft 21, will flow to the rim due to the centrifugal force, and will be forced out through the passages 29 into the spaces 28 between the blocks. In the preferred embodiment the spaces 28 are completely free of any grouting material; however, it is conceivable that the spaces 28 may be partially filled with such a material but with ample passageway for the flow of fluid.
The fluid serves to control the temperature of the blocks 18 and prevent undesirable degrading of the pulp by excessive temperature. Moreover, the fluid lubricates the blocks 18 and serves to flush away the ground material from the interface between the pulpwood and the grinding surface. This is particularly important for the reason that if the pulp is reground, its quality will be lessened. By feeding the fluid through the spaces between the stone segments, all portions of the grinding surface are lubricated. Furthermore, the temperature of the fluid can be controlled to effect additional gains in pulp quality. It has been noted that grinding at higher temperature usually results in groundwood pulp of improved quality. However, under higher temperature operation there is more danger of charring or burning if the grinding surface is not adequately lubricated in the grinding zone. Steam may also be passed into the cylinder and out through the radial passages 29 onto the blocks 18.
In the preferred embodiment the blocks 18 are mounted in alternating rows as is usual in pulpstone construction. The purpose of the alternating rows is to prevent the grooving of the pulpwood that would occur if the spaces were continuous about the circumference of the pulpstone.
The assembly of a pulpstone shown hereinbefore will now be briefly described. The self-hardening cement is first applied to the inner surface of the grinding blocks andthen the blocks are set in place. The bolts are tightened just enough to bed down the blocks securely in the cement. After the cement has completely hardened, the bolts are preloaded to approximately 4,000 pounds. The pulpstone is then balanced on a lathe and is run for several hours with a reduced grinding load to bring it up to temperature.
If one of the blocks 18 should become damaged, it may be readily replaced by removing the nut 30 from the bolt 17 to release the block from the cylinder 10. A new block may then be secured into position, and if necessary, the pulpstone may be balanced on a lathe. If the entire pulpstone should become worn to a point that it is no longer efiective, all of the blocks 18 may be removed and new blocks substituted therefor. The cylinder 10 may be re-used, thus resulting in a substantial savings incost.
By the construction just described, a pulpstone is provided that may be effectively lubricated and have its operating temperature effectively controlled by a fluid introduced into the interior of the stone. This construction is economical to build and maintain, and at the same time results in a much higher quality of pulp than heretofore obtainable by using other types of pulpstones.
It is obvious that certain modifications may be made Within the scope of the claims without departing from the spirit of the invention.
I claim:
1. A pulpstone comprising a hollow metal cylinder, the inside of which is adapted to be connected to a source of water, a plurality of spaced substantially radial passages in said cylinder, a plurality of spaced abrasive material grinding blocks secured to the outer periphery of said cylinder in which said radial passages are substantially aligned with the spaces between said grinding blocks, and means for securing said grinding blocks to said cylinder, said means being positioned so that the water can flow relatively freely through said radial passages and said spaces.
2. A pulpstone comprising a hollow metal cylinder, the inside of which is adapted to be connected to a source of water, shaft means for rotatably supporting said cylinder, a plurality of spaced substantially radial passages in said cylinder, a plurality of spaced abrasive material grinding blocks secured to the outer periphery of said cylinder in which said radial passages are aligned with the spaces between said grindnig blocks, and means for securing said grinding blocks to said cylinder, said means being positioned so that the water can flow relatively freely through said radial passages and said spaces.
3. A pulpstone comprising a hollow metal cylinder,
the inside of which is adapted to be connected to a sourceof water, a coaxial stub shaft secured to each end of said hollow cylinder for rotatably supporting the same, at least 3 one of said shafts being bored to permit water to be induced into said hollow cylinder, a plurality of spaced substantially radial passages in said cylinder, a plurality of spaced abrasive material grinding blocks secured to the outer periphery of said cylinder in which said radial passages are aligned with the spaces between said grinding blocks, and means for securing said grinding blocks to said cylinder, said means being positioned so that the water can flow relatively freely through said radial pas-' sages and said spaces.
4. A pulpstone comprising a hollow metal cylinder, the
inside of which is adapted to be connected to a source of water, a coaxial stub shaft secured to each end of said hollow cylinder for rotatably supporting the same, at least one of said shafts being bored to permit water to be induced into said hollow cylinder, a plurality of spaced substantially radial passages in said cylinder, a plurality of spaced abrasive material grinding blocks secured to the outer periphery of said cylinder in which said radial passages are aligned with the spaces between said grinding blocks, and mechanical means for securing said grinding blocks to said hollow cylinder, said means being positioned so that the water can flow relatively freely through said radial passages and said spaces.
5. A pulpstone comprising a hollow metal cylinder, the
" spaces between said grinding blocks to form a pulpstone of substantially cylindrical shape, and mechanical means for securingsaid grinding blocks to said hollow cylinder,
5 said means being positioned so that the water can flow 2,078,452 relatively freely through said radial passages and said 2,282,887 spaces. 2,769,286
References Cited in the file of this patent 5 UNITED STATES PATENTS 524,572 Beckert Aug. 14, 1894 6 Larsson Apr. 27, 1937 Roberts May 12, 1942 Beth Nov. 6, 1956 FOREIGN PATENTS Germany Oct. 31, 1930
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Cited By (20)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3144739A (en) * 1962-02-05 1964-08-18 William J Brutvan Grinding wheel
US3154894A (en) * 1960-10-04 1964-11-03 Diagrit Electrometallics Ltd Tool for dressing the surface of a conical hole
US3460293A (en) * 1966-12-09 1969-08-12 Glen W Sweet Regulating wheel for centerless grinder
US3620462A (en) * 1970-06-12 1971-11-16 Carborundum Co Pulpstone mounting
US3622091A (en) * 1969-06-18 1971-11-23 Howard Bidwell Dry fluffing pulp sheet stock
US3680799A (en) * 1969-09-25 1972-08-01 Trelleborgs Gummifabriks Ab Linings for rotary mills
US3683566A (en) * 1970-10-05 1972-08-15 Klemens C Walters Segmented grinding wheel assembly
US3973737A (en) * 1973-05-14 1976-08-10 Aktiebolaget Karlstads Mekaniska Werkstad Pulp grinder
FR2444113A1 (en) * 1978-12-13 1980-07-11 Voith Gmbh DEFIBRATION PROCESS AND WHEEL FOR THE MANUFACTURE OF PULP
DE3204384A1 (en) * 1981-02-09 1982-09-23 Norton Co., 01606 Worcester, Mass. GRINDSTONE
US4617709A (en) * 1984-03-05 1986-10-21 T. J. Gundlach Machine Company Segmental shell for a coal crusher roll including specialized removal means
US5243789A (en) * 1989-10-27 1993-09-14 Norton Company Pulpstone
US6024635A (en) * 1996-11-22 2000-02-15 Specialty Sales, Inc. Rotary drum tool
US20030122005A1 (en) * 2000-07-13 2003-07-03 Kharina Rita Adamovna Apparatus for working and processing materials
DE4032979B4 (en) * 1989-10-27 2005-07-28 Saint-Gobain Abrasives, Inc., Worcester grindstone
WO2013087397A3 (en) * 2011-12-17 2013-08-29 Khd Humboldt Wedag Gmbh Milling roller with bolt-on shaft
EP3747610A1 (en) * 2019-06-04 2020-12-09 CEDIMA Diamantwerkzeug- und Maschinenbaugesellschaft mbH Tool for handling a road surface, machine and method for mounting and dismounting the tool
US10933424B1 (en) * 2019-12-11 2021-03-02 Pearson Incorporated Grinding roll improvements
US11534770B1 (en) 2017-07-26 2022-12-27 Pearson Incorporated Systems and methods for step grinding
US11751507B1 (en) 2019-10-31 2023-09-12 Hemp Processing Solutions, LLC Crop harvesting system with plant stripping apparatus

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US524572A (en) * 1894-08-14 Grinding-wheel
DE511547C (en) * 1929-06-30 1930-10-31 Fritz Ruehlemann Dr Ing Process and device for moisture penetration of grinding stones during operation
US2078452A (en) * 1935-12-12 1937-04-27 Norton Co Pulpstone and filler for the same
US2282887A (en) * 1942-05-12 Wood grinding machine
US2769286A (en) * 1955-09-30 1956-11-06 Norton Co Pulpstone

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US524572A (en) * 1894-08-14 Grinding-wheel
US2282887A (en) * 1942-05-12 Wood grinding machine
DE511547C (en) * 1929-06-30 1930-10-31 Fritz Ruehlemann Dr Ing Process and device for moisture penetration of grinding stones during operation
US2078452A (en) * 1935-12-12 1937-04-27 Norton Co Pulpstone and filler for the same
US2769286A (en) * 1955-09-30 1956-11-06 Norton Co Pulpstone

Cited By (27)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3154894A (en) * 1960-10-04 1964-11-03 Diagrit Electrometallics Ltd Tool for dressing the surface of a conical hole
US3144739A (en) * 1962-02-05 1964-08-18 William J Brutvan Grinding wheel
US3460293A (en) * 1966-12-09 1969-08-12 Glen W Sweet Regulating wheel for centerless grinder
US3622091A (en) * 1969-06-18 1971-11-23 Howard Bidwell Dry fluffing pulp sheet stock
US3680799A (en) * 1969-09-25 1972-08-01 Trelleborgs Gummifabriks Ab Linings for rotary mills
US3620462A (en) * 1970-06-12 1971-11-16 Carborundum Co Pulpstone mounting
US3683566A (en) * 1970-10-05 1972-08-15 Klemens C Walters Segmented grinding wheel assembly
US3973737A (en) * 1973-05-14 1976-08-10 Aktiebolaget Karlstads Mekaniska Werkstad Pulp grinder
FR2444113A1 (en) * 1978-12-13 1980-07-11 Voith Gmbh DEFIBRATION PROCESS AND WHEEL FOR THE MANUFACTURE OF PULP
US4351486A (en) * 1978-12-13 1982-09-28 J. M. Voith Gmbh Process and a grinding stone for preparing mechanical wood pulp
DE3204384A1 (en) * 1981-02-09 1982-09-23 Norton Co., 01606 Worcester, Mass. GRINDSTONE
AU583807B2 (en) * 1984-03-05 1989-05-11 T.J. Gundlach Machine Company Segmental shell for a coal crusher roll
US4617709A (en) * 1984-03-05 1986-10-21 T. J. Gundlach Machine Company Segmental shell for a coal crusher roll including specialized removal means
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