US2710148A - Pulverizer grinding rings - Google Patents

Pulverizer grinding rings Download PDF

Info

Publication number
US2710148A
US2710148A US271133A US27113352A US2710148A US 2710148 A US2710148 A US 2710148A US 271133 A US271133 A US 271133A US 27113352 A US27113352 A US 27113352A US 2710148 A US2710148 A US 2710148A
Authority
US
United States
Prior art keywords
grinding
ring
balls
ball
pulverizer
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
US271133A
Other languages
English (en)
Inventor
Jr James B Walker
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.)
Babcock and Wilcox Co
Original Assignee
Babcock and Wilcox Co
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
Priority to BE517546D priority Critical patent/BE517546A/xx
Application filed by Babcock and Wilcox Co filed Critical Babcock and Wilcox Co
Priority to US271133A priority patent/US2710148A/en
Priority claimed from US271130A external-priority patent/US2674801A/en
Priority to FR65029D priority patent/FR65029E/fr
Priority to GB3753/53A priority patent/GB721085A/en
Priority to DEB24222A priority patent/DE1001097B/de
Priority to NL175972A priority patent/NL88103C/xx
Priority to US411921A priority patent/US2828921A/en
Publication of US2710148A publication Critical patent/US2710148A/en
Application granted granted Critical
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B02CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
    • B02CCRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
    • B02C15/00Disintegrating by milling members in the form of rollers or balls co-operating with rings or discs
    • B02C15/12Mills with at least two discs or rings and interposed balls or rollers mounted like ball or roller bearings

Definitions

  • the present invention relates in general to improvements in the construction and operation of pulverizers, and more particularly, to pulverizers of the general type shown in U. S. Patent No. 2,275,595 in which a housing encloses a horizontally arranged circular series of rolling grinding elements positioned between cooperating upper non-rotating and lower rotary grinding rings resiliently pressed together, the raw material to be pulverized being delivered to the inner side of the annular grinding zone, and most of the Wholly or partly pulverized material swept up at the outer side of the grinding zone by a high velocity annular stream of a gaseous carrier medium passing upwardly through an annular throat.
  • any particles of sufiicient density to drop through the throat against the carrier gas stream are collected in the subjacent part of the pulverizer.
  • the pulverized material in suspension in the gaseous carrier medium is carried upwardly to a classifier which operates to separate oversize material which returns by gravity towards the grinding zone, while the finer particles of material are discharged in suspension in the carrier medium from the classifier outlet through the housing pulverized material outlet to storage or a point of use.
  • pulverizers of the character described are dependent upon a number of factors including the original cost of the pulverizer and auxiliary equipment for a given output capacity, power consumption, fineness of output over the permissible load range, adaptability for operation with materials of. dilferent grindability, feed size, and moisture content, the extent of the operating load range, and the amount of the recirculating load.
  • the size and power requirements of the fan or blower will depend upon the pulverizer static pressure differential and quantity handled.
  • this suspended dense annular mass of particles around the outside of the grinding zone results in a relatively high static pressure differential through the pulverizer as the mass fills substantially all of the space between the housing and the grinding elements, thus materially obstructing the flow path of the rising carrier gas stream.
  • the mass acts like a filter bed for the rising suspended particles, with some of the suspended oversize particles being caught in the mass and lighter particles in the mass being picked up in the gas stream.
  • the carrier gas flow through the suspended mass is often non-uniform, as the gas stream will tend to follow the flow path of least resistance, resulting in an uneven peripheral distribution of the suspended particles to the classifier.
  • the flow obstructing effect of the suspended mass of particles also causes a portion of the rising carrier gas stream to flow inwardly through the row of rolling grinding elements, thus opposing the outward flow of pulverized material and effecting aeration of the material in the grinding zone.
  • the material thus fluidized is difiicult to pulverize by the normal grinding action of the relatively moving rolling grinding elements and rings as it tends to flow out of the path of the cooperating grinding parts.
  • pulverizers of the character described can have their pulverized material output capacity increased and static pressure differential through the pulverizer decreased, without any decrease in fineness of output or increase in pulverizer size or cost, by an improved construction and arrangement of the non-rotary upper grinding ring, whereby the area available for re-entrance to the grinding zone of oversize material discharged from the grinding zone and picked up by the rising stream of carrier gas is substantially increased.
  • the upper ring is made of vertically elongated cross-section with its major axis arranged substantially tangential to a ball radius at an angle of 45 degrees in the upper inner quadrant of the grinding balls and the ball contact area almost wholly confined to the upper inner ball quadrant and extending only a small arcuate distance beyond the ball vertical center line. For example, with 10%" diameter balls, this distance was only A" in one installation.
  • the outer face of the ring was arranged at an angle of approximately 30 degrees to the vertical.
  • sufiicient to eliminate this wear' problem has been found to materially reduce the pulverizer capacity.
  • the upper nonrotary ring is provided with an increased overhang relative to the ball row Without materially reducing the area available for back-feeding the race by forming the upper ring with a series of special lugs spaced in a particular manner along its outer side, the underside of the lugs being shaped to conform to the ball and form a continuation of the upper ring race profile.
  • the lug faces are arranged at an inclination downward in the direction of pulverized rotation to utilize the swirling motion of the material passing the upper ring to induce a high rate of back-feeding in the gaps between the lugs.
  • Thelugs are circumferentially spaced on the outer side of the ring a distance preferably slightly less than the diameter of the grinding balls when new.
  • the pulverizer illustrated includes a cylindrical upper housing section and a lower housing section' 11 sup'portedon a foundation 12.
  • the lower section encloses the pulverizer gear drive which includes a horiz o'ntal pinion shaft 13 arranged to drive a vertical drive shaft 14 axially arranged in'the housing.
  • the drive shaft 14 extends upwardly through bearings arranged in a base plate 1.5 forming the top of the lower housing section 11.
  • the housing section 10 is detachably secured to the base plate 15 and encloses the grinding parts of the pulverizer which comprises a drive yoke 17 of general conical form keyed on. the upper part of the drive shaft 14 and an annular lower grinding ring 18 supported on and doweled to a flattened lower portion of the drive yoke.
  • Part of the upper face of the lower grinding ring is shaped to form a circular track or race 19 for a row of rolling grinding elements 20, preferably balls of a wear-resistant ferrous alloy.
  • the ball row supports a nonro tating upper grinding ring 21 having a circular ball track22' formed in its lower face and constructed and arranged as hereinafter described.
  • arms 23 project radially'outwardly from the upper ring and are provided with sockets 24 for receiving dual purpose springs 25.
  • Each spring is formed of a length of spring steel bar stock bent to form a single complete coil turn having a large pitch diameter.
  • the upper ends of the springs 25 fit into corresponding sockets 26 carried by vertical adjusting bolts 27.
  • Each bolt 2'7 is supported in a sleeve bracket 28 on the housing top plate 2? by means of a nut 30 and retainer 31.
  • the springs 25 provide a resilient compressive force for the application of a grinding pressure upon the grinding rings'and balls as well as a.
  • the raw material to be pulverized is supplied by a regulable table feeder 35 through a housing opening 36 extending above the upper grinding ring and discharging down the inner side thereof to the upper inclined surface of the yolre 1'7 at the'inner side of the ball row.
  • the inclined surface of the yoke and the rotation thereof distributes the material circumferentially into the grinding zone. Due to the effect of centrifugal force the material flows outwardly into the ball race 19 where it is pulverized by the crushing action of the relatively moving grinding balls and rings and the attrition action of the particles on one another.
  • the material is pulverized to various finenesses and discharges from the grinding zone at a high speed and tangentially to the periphery of the lower grinding ring, the velocity of discharge depending upon the rotational speed of the lower ring.
  • the ball race 19 terminates at its inner side a short distance, e. g. A", inwardly of the pitch circle of the ball row and the adjacent part 18 of the upper face of the lower grinding ring is cut away to a lower level to form a storage pocket which will tend to feed the material to be pulverized into the lower half of tlieball race after the passage of each grinding ball and will result in both grinding and wear in Chis race area which promotes a wear direction more compatible with the direction of ball thrust.
  • a short distance e. g. A
  • the pulverized material is removed from the grinding area by a high velocity annular stream of a suitable gaseous carrier medium, preferably air, and when coal is being pulverized for combustion purposes, preferably the primary air supply used for combustion in the associated furnace.
  • a suitable gaseous carrier medium preferably air
  • the air is supplied at a regulated temperature, e. g. l50600 E, sufficient to eliminate substantially all of the surface moisture on the raw material undergoing pulverization.
  • the air is preferably supplied under a superatmospheric pressure by a suitable forced draft fan (not shown) to an annular wind box 37 surrounding the lower part of the housing section lit.
  • the carrier airpasses through passages defined by equi-spaced obliquely arranged vanes 33 opening through the housing wall adjacent to the lower outer side of the lower grinding ring.
  • the vanes 3% effect a swirling movement of the air stream in the same direction as the direction of lower ring rotation as it flows upwardly through the narrow annular passage between the lower grinding ring and housing.
  • the lower grinding ring is provided with an integral annular vertical ledge 40 spaced from the outer side of the ball row and extending vertically to a level sufficient to maintain the desired bed of material in the lower grinding race. For example, in one installation with balls 9% diameter, the top of the ledge was at the level of the ball centers. In operation, the ledge will act as a darn over which the pulverized material will fiow under centrifugal force, the space within the ledge being normally filled with material at an angle corresponding to the angle of the free surface of the forced vortex of the pulverizer material.
  • the swirling stream of carrier air has its velocity increased to a value at a pulverizer level corresponding to the upper end of the ledge, at which value, e. g. 9000- 12,000 ft./rnin., substantially all of the pulverized material flowing over the ledge will be picked up and carried upwardly in suspension.
  • a narrow outwardly inclined threat at an angle of 60-70 degrees to the horizontal is defined by the outwardly flaring side of the ledge 40 and a parallel inverted frusto-conical plate 43, the stationary throat plate 43 being mounted for radial adjustment on the housing wall and extending inwardly and downwardly from the housing wall at the top level of the ledge substantially coextensive with the ledge 40.
  • the upper surface of the ledge 40 is inwardly inclined and across which the pulverized material flows to the throat 42 In one embodiment, the throat was A" in width.
  • the swirling air stream passes upwardly and on entering the throat 42 is directed outwardly at an acute angle to the housing Wall, whereby the pulverized mate rial flowing over and down the ledge 40 is swept up by the air stream adjacent the housing wall and carried upwardly in suspension.
  • the larger or denser particles swept'up tend to drop out of the upiiowing air stream and the stream of air along the housing wall tendsto direct such particles inwardly towards the grinding zone.
  • Any small particles of dense unpulverized material, such as pyr-ites will drop through the throat to the pulverizer space below the air entrance passages and be periodically discharged through a gate 50 into a compartment 51.
  • the relative movement between the stationary plate 43 and rotating ledge 40 effectively prevents clogging of the throat 42.
  • the material-laden air stream swirls upwardly along the housing wall at the outer side of the upper grinding ring and laterally to a stationary classifier 50 of the type disclosed and claimed in anapplication of S. W. Culp, Serial No. 282,217, filed April 14, 1952.
  • 'the'classifier is arranged to extend across the lower' end of a turret 62, the top of which opens to the pulverized material outlets 63.
  • the classifier has a casing 61 of circular cross-section supported in spaced relation from the top plate of the pulverizer, the annular opening therebetween being occupied by a circumferentially spaced series of angularly arranged separatingblades 64 positioned between upper and lower annular plates 65 and 66 respectively.
  • the upper plate 65 has a depending vertical flange 67 at its inner edge, as shown in Fig. 1.
  • the lower end of the casing 61 surrounds the upper end of the drive yoke 17 which carries a series of curved blades 68 positioned in the space therebetween and which act to eject the oversize material separating out in the classifier and dropping to the lower portion of the casing 61.
  • the oversize material is thus returned to the inner side of the grinding ball row, mingling with the raw material therein from the feeder.
  • the oversize material so recirculated by the action of gravity and the classifier must be further pulverized before being fit for use.
  • the recirculating load normally is many times the rate of discharge of the pulverized material from the pulverizer outlet, e. g. when pulverizing bituminous coal, -30: 1. While such material dropping into the space at the inner side of the ball row readily reaches the grinding zone, the portion heretofore dropping on and outside the upper grinding ring was greatly delayed in again reaching the grinding zone. The reentrance of recirculated material to the grinding zone is greatly facilitated by a special construction and arrangement of the upper grinding ring.
  • the body portion of the upper ring is of vertically elongated cross-section with its major axis arranged substantially tangential to a ball radius at an angle of 45 degrees in the upper inner quadrant of the grinding balls.
  • the ring is so shaped that its ball contact area is almost wholly confined to the upper inner ball quadrant and extends only a small arcuate distance beyond the ball vertical center line. For example, with 9%" and 10 /2 diameter balls this distance was only /2".
  • the upper end of the ring cross-section is continuously curved and slopes downwardly at its inner side for a major portion of its extent at'an angle of approximately 45 degrees to the vertical with the remaining inner surface substantially vertical.
  • the opposite face is arranged at an angle of approximately degrees to the vertical.
  • each plow is sloped inwardly and upwardly in the direction of ring rotation at an angle of approximately 30 degrees from the vertical and approximately degrees from the radial, so that it will extend at an angle across and immediately above the throat 42.
  • a portion of thethroat plate 43 is cut away at one segmental section to permit the installation of a counterweighted relief gate 70 of the same contour and pivoted on ashaft 71 to allow large pieces of unpulverizable material, such. as tramp iron, to. drop into the subjacent part of the pulverizer.
  • the upper grinding ring 21 is provided with an increased surface area overhanging and in contact with the ball row, without materially reducing the flow area available for backfeeding the grinding zone, with material dropping out of the carrier gas stream.
  • the upper grinding ring 21 has a series of circumferentially spaced lugs along its inclined outer side projecting outwardly therefrom.
  • the lugs are preferably integrally formed on the ring and are downwardly flared in width and thickness, as shown in Figs. 2 and v3, from the junction of the outer side with the curved upper end of the ring.
  • the underside 81 of the lugs is shaped to conform to'the ball profile and to form a continuation of the grinding ring race 22.
  • the opposite faces 82, 83 of the lugs are inclined downwardly in the direction of rotation of the lower grinding ring to utilize the swirling motion of the material passing the upper ring to induce a high rate of back-feeding of material into the gaps between the lugs.
  • This action more: than oifsets the reduction in'the flow area for back-feeding the grinding zone caused by the lugs.
  • the lower ends of the lugs 80 are preferably spaced apart circumferentially an arcuate distance slightly less than the diameter of the grinding balls when new. With this arrangement, the ball-contacting area of the upper grinding ring is subst'antially increased without reducing the recirculation of the oversize material to the grinding zone above the horizontal centerline of the ball row.
  • the increased ball-contacting area so located is sufiicient to hold the grinding balls in their designed locations relative to the grinding ring races throughout the designed service life of the grinding rings.
  • Pulverizers of the construction described are characterized by greatly increased output with increased fineness and a decreased static pressure differential.
  • the improved conditions in and adjacent to the grinding zone are attained by preventing carrier air flow directly into the ball row and thus avoiding aeration and consequent fluidizing of material at the time of pulverization; the maintenance of a bed of material on the grinding face of sufiicient thickness to cause adequate pulverization on each passage of a particlethrough the grinding zone; the rapid scavenging of the undersize particles from the material leaving thegrinding'zone to prevent overgrinding and consequent power consumption; the recirculation of much of the oversize material to the grinding zone by the shortest practical route; the elimination of a dense mass of oversize material around the grinding zone; and the intimate mixing of the hot air and partially pulverized material at a point in the circulation path which insures proper drying of the material.
  • a pulverizer comprising a housing enclosing a rotary lower grinding ring, means for rotating said lower grinding ring, a circular row of grinding balls supported on said lower grinding ring, a non-rotary upper grinding ring supported on said grinding balls, means for delivering material to be pulverized to the inner side of said row of grinding balls, means for directing an annular stream of air upwardly past the outer side of said grinding rings and row of grinding balls to sweep up pulverized material discharging therefrom, said upper grinding ring having a body portion cut away at its outer side to an extent suflicient to lay open a major portion of the upper outer quadrant of said grinding balls for the reception of recirculated material, and a series of lugs circumferentially spaced on and projecting outwardly from the outer side of said upper grinding ring body portion and having their call-contacting undersides curved to correspond to the ball profile.
  • a pulverizer comprising a housing enclosing a rotary lower grinding ring, means for rotating said lower grinding ring, a circular row of grinding balls supported on said lower grinding ring, a non-rotary upper grinding ring supported on said grinding balls, means for delivering material to be pulverized to the inner side of said row of grinding balls, means for directing an annular stream of air upwardly past the outer side of said grinding rings and row of grinding balls to sweep up pulverized in iai discharging therefrom, said air flow directing means being constructed and arranged to define an annular throat inclined upwardly and outwardly to a point adjacent said housing so as to deflect the air stream away from said row of grinding balls, said upper grinding ring having a body portion cut away at its outer side to an extent sufiicient to lay open substantially all of the upper outer quadrant of said grinding balls for the reception ofrecirculated material, and a series of lugs circumferentially spaced on and projecting outwardly from the outer side of said upper grinding
  • a pulverizer comprising a housing enclosing a rotary lower grinding ring, means for rotating said lower grinding ring, a circular row of grinding balls supported on said lower grinding ring, a non-rotary upper grinding ring having an arcuate race supported on said grinding balls, means for delivering material to be pulverized to the inner side of said row of grinding balls, means for directing an annular stream of air upwardly past the outer side of said grinding rings and row of grinding balls to sweep up pulverized material discharging therefrom, said upper grinding ring having a body portion cut away at its outer side to an extent suflicient to lay open a major portion of the upper outer quadrant of said grinding balls for the reception of recirculated material, and a series of lugs circumferentially spaced on and projecting outwardly from the outer side of said upper grinding ring body portion and having their undersides curved to form a continuation of said grinding ring race and opposite faces downwardly inclined in the direction of rotation of said lower grinding ring.
  • a pulverizer comprising a housing enclosing a rotary lower grinding ring, means for rotating said lower grinding ring, a circular row of grinding balls supported on said iower grinding ring, a non-rotary upper grinding ring having an arcuate race supported on said grinding balls, means for delivering material to be pulverized to the inner side of said row of grinding balls, means forming a peripheral ledge on and extending substantially above the ball-contacting surface of said lower grinding ring, means for directing an annular stream of air upwardly past the outer side of said grinding rings and row of grinding balls to sweep up pulverized material discharging therefrom, said air flow directing means including an annular stationary throat plate constructed and arranged relative to said ledge-forrning means to define therebetween an annular throat inclined upwardly and outwardly away from said row of grinding balls, said upper grinding ring having a body portion cut away at its outer side to an extent sufficient to lay open a major portion of the upper outer quadrant of said grinding balls for the reception of recirc
  • a pulverizer comprising a housing enclosing a lower rotary grinding ring having an arcuate race formed on its upper surface, means for rotating said lower grinding ring, a circular row of grinding balls supported on said lower grinding ring race, a non-rotary upper grinding ring supported on said grinding balls, means for delivering material to be pulverized to the inner side of said row of grinding balls, means forming a peripheral ledge on and extending above the upper surface of said lower grinding ring, means for directing an annular stream of air upwardly past the outer side of said grinding rings and row of grinding balls to sweep up pulveriaed material discharging therefrom, said lower grinding ring race having its inner edge terminating adjacent the vertical center line of said ball row, and the upper surface of the inner portion of said lower grinding ring adjacent the vertical centerline of said race being cut away below the level of said race to form a material storage pocket.
  • a pulverizerupper grinding ring having an arouate race adapted to be supported on a circular row of grinding balls, said upper grinding ring having a body portion cut away at its outer side from the outer edge of said arcuate race at an acute angle less than 45 to the vertical to an extent suflicient to expose a major portion of the upper outer quadrant of said grinding balls when positioned thereon and a series of lugs circumferentially spaced on and projecting outwardly from the outer side of said upper grinding ring body portion and having their undersides curved to form a continuation of said grinding ring race whereby the underside of said lugs contact the upper outer quadrant of said grinding balls.
  • a pulverizer non-rotary upper grinding ring having an arcuate race adapted to be supported on a circular row of grinding balls, said upper grinding ring having a body portion cut away at its outer side to an extent sutlicient to expose substantially all of the upper outer quadrant of said grinding balls and having its major cross-sectional axis outwardly inclined and its geometrical center at the inner side of the vertical center line of said grinding balls when positioned thereon, and a series or" lugs circumferentially spaced on and projecting outwardly from the outer side of said body portion and having their undersides curved to form a continuation of said grinding ring race whereby the underside of said lugs contact the upper outer quadrant of said grinding balls and opposite faces of said lugs being downwardly inclined in the same direction.

Landscapes

  • Engineering & Computer Science (AREA)
  • Food Science & Technology (AREA)
  • Crushing And Grinding (AREA)
  • Crushing And Pulverization Processes (AREA)
US271133A 1952-02-12 1952-02-12 Pulverizer grinding rings Expired - Lifetime US2710148A (en)

Priority Applications (7)

Application Number Priority Date Filing Date Title
BE517546D BE517546A (nl) 1952-02-12
US271133A US2710148A (en) 1952-02-12 1952-02-12 Pulverizer grinding rings
FR65029D FR65029E (fr) 1952-02-12 1953-02-07 Perfectionnements aux broyeurs
GB3753/53A GB721085A (en) 1952-02-12 1953-02-10 Improvements in or relating to pulverisers
DEB24222A DE1001097B (de) 1952-02-12 1953-02-11 Kugelquetschmuehle
NL175972A NL88103C (nl) 1952-02-12 1953-02-11
US411921A US2828921A (en) 1952-02-12 1954-02-23 Material feeder and material relief gate structure for gas swept pulverizers having rolling grinding elements and a stationary upper classifier

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
US271133A US2710148A (en) 1952-02-12 1952-02-12 Pulverizer grinding rings
US271130A US2674801A (en) 1952-02-13 1952-02-13 Dental matrix
US411921A US2828921A (en) 1952-02-12 1954-02-23 Material feeder and material relief gate structure for gas swept pulverizers having rolling grinding elements and a stationary upper classifier

Publications (1)

Publication Number Publication Date
US2710148A true US2710148A (en) 1955-06-07

Family

ID=22105620

Family Applications (2)

Application Number Title Priority Date Filing Date
US271133A Expired - Lifetime US2710148A (en) 1952-02-12 1952-02-12 Pulverizer grinding rings
US411921A Expired - Lifetime US2828921A (en) 1952-02-12 1954-02-23 Material feeder and material relief gate structure for gas swept pulverizers having rolling grinding elements and a stationary upper classifier

Family Applications After (1)

Application Number Title Priority Date Filing Date
US411921A Expired - Lifetime US2828921A (en) 1952-02-12 1954-02-23 Material feeder and material relief gate structure for gas swept pulverizers having rolling grinding elements and a stationary upper classifier

Country Status (6)

Country Link
US (2) US2710148A (nl)
BE (1) BE517546A (nl)
DE (1) DE1001097B (nl)
FR (1) FR65029E (nl)
GB (1) GB721085A (nl)
NL (1) NL88103C (nl)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2828921A (en) * 1952-02-12 1958-04-01 Babcock & Wilcox Co Material feeder and material relief gate structure for gas swept pulverizers having rolling grinding elements and a stationary upper classifier
CN115318418A (zh) * 2022-08-22 2022-11-11 沈洋 一种药品研磨装置

Families Citing this family (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6874715B1 (en) * 2000-10-27 2005-04-05 The Babcock & Wilcox Company EL type pulverizers
CN117504978B (zh) * 2023-11-07 2024-06-25 绿知源(北京)环保科技有限公司 一种石英砂原料粉碎用球磨机

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2012265A (en) * 1929-06-05 1935-08-27 Fuller Lehigh Co Grinding mill
US2275595A (en) * 1938-04-22 1942-03-10 Babcock & Wilcox Co Pulverizer
GB575376A (en) * 1943-04-01 1946-02-14 Babcock & Wilcox Ltd Improvements in pulverisers
DE828192C (de) * 1948-10-02 1952-01-17 Babcock & Wilcox Dampfkessel W Kugelringmuehle

Family Cites Families (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR853351A (nl) * 1900-01-01
DE531564C (de) * 1928-04-03 1931-08-12 Alfred Oskar Schulze Federrollenmuehle mit die umlaufende Mahlbahn durchbrechenden Kanaelen und unterhalbder Mahlbahn an die Kanaele angeschlossenen Leitschaufeln
US1737800A (en) * 1928-05-09 1929-12-03 Peabody Engineering Corp Apparatus for pulverizing material
FR691796A (fr) * 1929-03-14 1930-10-27 Perfectionnements aux broyeurs et similaires
US2012783A (en) * 1930-04-04 1935-08-27 Fuller Lehigh Co Grinding mill with divided feed
US1952322A (en) * 1930-11-17 1934-03-27 Fuller Lehigh Co Grinding mill
US2066139A (en) * 1931-11-04 1936-12-29 Babcock & Wilcox Co Pulverizer
DE664624C (de) * 1937-05-12 1938-09-02 Babcock & Wilcox Ltd Kugelquetschmuehle
US2670138A (en) * 1949-11-01 1954-02-23 Babcock & Wilcox Co Air swept ball and ring pulverizer throat and upper ring construction
DE909287C (de) * 1949-11-01 1954-04-15 Babcock & Wilcox Ltd Kugelquetschmuehle
BE517546A (nl) * 1952-02-12

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2012265A (en) * 1929-06-05 1935-08-27 Fuller Lehigh Co Grinding mill
US2275595A (en) * 1938-04-22 1942-03-10 Babcock & Wilcox Co Pulverizer
GB575376A (en) * 1943-04-01 1946-02-14 Babcock & Wilcox Ltd Improvements in pulverisers
DE828192C (de) * 1948-10-02 1952-01-17 Babcock & Wilcox Dampfkessel W Kugelringmuehle

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2828921A (en) * 1952-02-12 1958-04-01 Babcock & Wilcox Co Material feeder and material relief gate structure for gas swept pulverizers having rolling grinding elements and a stationary upper classifier
CN115318418A (zh) * 2022-08-22 2022-11-11 沈洋 一种药品研磨装置
CN115318418B (zh) * 2022-08-22 2024-02-20 沈洋 一种药品研磨装置

Also Published As

Publication number Publication date
BE517546A (nl)
US2828921A (en) 1958-04-01
GB721085A (en) 1954-12-29
DE1001097B (de) 1957-01-17
FR65029E (fr) 1956-01-25
NL88103C (nl) 1957-12-16

Similar Documents

Publication Publication Date Title
US2275595A (en) Pulverizer
US7448565B2 (en) Low profile primary classifier
US2716002A (en) Plural stage comminution system for wet solid materials
US4721258A (en) Roll-and-race pulverizer with rotating throat
US3199794A (en) Pulverizer
US4553704A (en) Pulverizing apparatus
US4687145A (en) Roll-and-race pulverizer with rotating throat
US3640475A (en) Apparatus for breaking up lumpy material
US2112359A (en) Rotary bowl mill
US4653699A (en) Coal-mill classifier
US2378681A (en) Pulverizer
US1941770A (en) Crusher
US2710148A (en) Pulverizer grinding rings
US2698142A (en) Bowl mill with novel bowl and air flow directing means
US2545254A (en) Air swept pulverizer having an eccentrically arranged air throat flow area
US2868462A (en) Pulverizing mill with novel outlet
US5054697A (en) Removable mill throat and wear ring for pulverizer
US2389844A (en) Pulverizer
US2670138A (en) Air swept ball and ring pulverizer throat and upper ring construction
US2431746A (en) Bowl mill with vane means providing uniform velocity upwardly swirling air currents
US3044714A (en) Ball race pulverizer
US1955960A (en) Pulverizing machine
CN209829125U (zh) 一种立磨磨盘排渣孔结构
US2214832A (en) Pulverizer
US2762573A (en) Air-swept pulverizers