US1213866A - Paper-pulp apparatus. - Google Patents

Paper-pulp apparatus. Download PDF

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US1213866A
US1213866A US1204715A US1204715A US1213866A US 1213866 A US1213866 A US 1213866A US 1204715 A US1204715 A US 1204715A US 1204715 A US1204715 A US 1204715A US 1213866 A US1213866 A US 1213866A
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screen
pulp
shield
tank
paper pulp
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William H Harding Jr
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D33/00Filters with filtering elements which move during the filtering operation
    • B01D33/06Filters with filtering elements which move during the filtering operation with rotary cylindrical filtering surfaces, e.g. hollow drums
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D33/00Filters with filtering elements which move during the filtering operation
    • B01D33/06Filters with filtering elements which move during the filtering operation with rotary cylindrical filtering surfaces, e.g. hollow drums
    • B01D33/073Filters with filtering elements which move during the filtering operation with rotary cylindrical filtering surfaces, e.g. hollow drums arranged for inward flow filtration
    • B01D33/09Filters with filtering elements which move during the filtering operation with rotary cylindrical filtering surfaces, e.g. hollow drums arranged for inward flow filtration with surface cells independently connected to pressure distributors
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D33/00Filters with filtering elements which move during the filtering operation
    • B01D33/44Regenerating the filter material in the filter
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D33/00Filters with filtering elements which move during the filtering operation
    • B01D33/58Handling the filter cake in the filter for purposes other than for regenerating the filter cake remaining on the filtering element
    • B01D33/62Handling the filter cake in the filter for purposes other than for regenerating the filter cake remaining on the filtering element for drying
    • B01D33/64Handling the filter cake in the filter for purposes other than for regenerating the filter cake remaining on the filtering element for drying by compression
    • B01D33/646Handling the filter cake in the filter for purposes other than for regenerating the filter cake remaining on the filtering element for drying by compression by pressure rollers

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  • This invention relates to improvements in the art oftreatment of paper pulp and more particularly to apparatus designed for effectively removing and recovering bleaching agents or other chemicals from pulp.
  • One of the objects in view is the effective control of the pulp for maintaining it conditioned to be'subjected to the thickening action of a sucking apparatus drawing fluid away from the pulp, and a further object is the cleansing of the pulp under similar conditions.
  • Figure 1 is a transverse, axial, sectional elevation of an apparatus embodying the features of the present invention.
  • Fig. 2 is an axial section taken on the plane indicated by line 2 2 of Fig. l.
  • Fig. 3 is a fragmentary section taken on the plane indicated by line 3-3 of Fig. 1.
  • Figs. 4 and 5 are elevations of the coperating disks of the controlling valve detached.
  • Figs. 6 and 8 are, respectively, outline views of slightly modified embodiments, the parts being seen on a reduced scale.
  • Fig. 7 is a cross section taken on the plane of line 7 ⁇ 7 of Fig. 6.
  • the present invention is designed parthe difficulties mentioned, and to render practicable the recovery of chemicals from paper pulp not diluted to an injurious extent.
  • 1 indicates a container for paper pulp or waste waters containing fine particles of paper pulp.
  • a false bottom 2 is preferably provided for tank 1.
  • a waste water or pulp supply pipe 3 controlled by a valve 4 discharges into tank 1, or the pulp may be supplied to the tank over the upper edge thereof as preferred.
  • the annular area inclosed between plate 11 and screen 13 is divided by radial partitions 14, 14 forming sections 15, 15.
  • a controlling 16 To each of the sections 15 extends a controlling 16, and all of the pipes 16 project radially inwardly and are then turned to extend axially to communicate with the plate 17 of the controlling valve, the said plate coperating with a. plate 18 to complete the valve, the plate 17 being preferably formed as a part of one of the hub portions 8- and thus being adapted to rotation while the plate 18 is held stationary by being fixed to the support of the adjacent bearing 5.
  • the plate 17 is provided with a port for each pipe 16 extending axially through the plate and disposed to successively register with ports 19, 20, 21 and 22 of plate 18.
  • the port 19 extends axially through the plate 18 and municates with an air suction communicates with a pipe 23 which extends to a suction pump for liquid, not illustrated, the inner face of plate 18 being formed with a circumferentially extended groove 19 for keeping the port 19 in communication with ⁇ all of -the pipes 16 of those sections 1'5 which are submerged in tank 1.
  • the port 20 comy ump, not illustrated, through a pipe 2&1, an' the inner face of plate 18 is formed with a circumferentially extended groove 20 communicating with port 20 for enabling the port 20 to maintain communicat-ion with all of the pipes 16 'Whosersections 15 are movinglfrom the liquid level of tank 1 up to the point of cleansing.
  • the cleansing is accomplished Vby thev delivery of water or other cleansing fluid from an elevated tank 25, through apertures 26 in the bottom of the tank down on material carried by the rotary screen.
  • Port 21 communicates through pipe 27 with a water suction pump, not illustrated, distinct from the pump connected with the pipe 23, and the inner face of plate 18 is formed with ,a circumferentially extended groove 21 communicating with port 21 for enabling port 21 to remain in communication with the pipes 16 of theseveral sections 15 from the point of cleansing to the point of discharge.
  • the port 22 communicates through pipe 28 toa source of compressed an' supply, such as a blower, not illustrated, and the port 22 is located for communlcating successively With the pipes 16, one at a time, as the respective sections 15 arrive at the point of discharge.
  • a chute 29 is located for receiving the discharge and is provided with a scraper-like extension 30 projecting between the annuli 10 and disposed with its inner edge adjacent the screen 13.
  • a confining plate or retaining shield 31 extends from within tank 1 at a point below the rotary screen about the outer edges of the annuli 10 up to the tank 25.
  • the lower portion of shield 31 is spaced from the annuli a considerable distance and is thence tapered toward the annuli until at about the liquid level of tank 4 the shield is substantially in touch with the annuli being spaced therefrom only a distance sufficient to allow the annuli to rotate freely without frictional contact with the shield.
  • the shield 4 may be supported by outside framework not illustrated, and lis supported in the structure shown by being fixed to the tank 1, and the tank 25 may be supported in any appropriate way suiiicientlyout of contact with annuli 10 to allow free rotation thereofwithout frictional resistance.
  • the tank 25 is sustained by the upper end portion of shield 31.
  • a shield 32 extends from a point adjacent tank 25 about the outer edges of annuli 10' down to substantially the point of disch-arge.
  • the shield 32 is constructed similar to shield close to the annuli 10 to as far as possible prevent lateral spilling of material between the respective shield and the edges of the annuli.
  • the paper pulp from which the chemical or chemicals must be removed is suppliedto tank 1, and the screen, consisting of the entire rotary wheel structure, is revolved while the several pumps connected with pipes 23, 2l, 27 and 28 are operated. Quantities of the pulp are thus drawn against the face of screen 13 for the several sections 15 as they approach the lower portion of shield 31 ⁇ and the wheel structure should be revolved sufficiently slowly so that the area between the screen 13 and the shield 31 will be substantially filled with pulp. As the pulp-laden portions ofthe screen ascend the inward taper of the shield 31 causes the pulp to become more compact and less liable to fall apart. As the shield 31 extends for substantially ninety degrees, there is no opportunity afforded for the pulp to fall away from the screen 13 and from between the annuli 10.
  • the shield 32 is employed to insure that the pulp cannot be washed olf from the screen by water supplied from tank 25 and to further insure maintenance of suliieient compactness. to enable the pump connected with pipe 27 to effectively suck the wash water from the pulp. As the pulp passes beneath the lower end ⁇ of shield 32, it re ⁇ ceives an outwardly acting blast from port 22. and is thus discharged down chute 29.
  • 6 l have indicated an embodiment which, for the purposes of the appended claims, may be considered the preferred emhodiment, and in which the rotary wheel or screen 10" is provided with an endless belt 31 disposed to act as amoving shield so as to retain the pulp in lace and to move in the same direction wit it to thereby eliminate liability ot' clogging from friction, and to further aid the retention of th pulp the belt 31 is driven slightly faster than the rate of travel of the peripheral portion of screen l0. rllhe shield portion 3l within the tank is stationary.
  • a shieldy 32 consisting of belting driven slightlyslower than the travel of the peripheral portion of screen 10 is located at the discharge side of the screen,land both belts 31 and 32 are of ,awidth and are located to fit between the annuli of the screen structure.
  • the structure is otherwise identical in detail and function to that just described.
  • Fig. 7 is shown another modiiedembodiment consisting ot the rotary wheel or screen l0 having at one side a shield consisting of a series of rollers 3113JL disposed to operate in lieu of the upper portion of shield 31', and having at the other side rollers 32a operating in lieu of shield-32, the struc-f ture being otherwise the same in function and detail as that specified with respect to lFig. 1; Rollers 31,and 32 may be geared and driven, and are respectively driven at rates ing to the rates of travel of belts respectively.
  • lin paper pulp apparatus the combination ot a rotary' screen, a vat for containing' paper pulp into which the screen extends, means for maintaining a difference in pressure at 'the respective faces ot thev screen 7p for building and retaining a coating of pulp on the exposed face of the screen, lmeans directing paper pulp in the vat toward the exposed tace of the screen, and additional means moving in the direction of travel of 7h the screen for retaining the coating ot pulp on the screen while substantially vertical.
  • lln paper pulp apparatus the combination of a rotary screen, means for main- 105 tainlng a dderence 1n pressure at the respective sides of the screen for building and retaining a coating of pulp on the screen, and a shield for mechanically directing the pulp toward and retaining the coating of pulp on ascending portions of the screen.
  • lln paper pulp apparatus the combination of a rotary screen, means for maintaining a diderence in pressure at the respective sides of the: screen for building and M5 retaining a coating ot paper pulp on the screen, means or Washing said coating, and shields at opposite sides of the washing means tor mechanicall retaining the coating of pulp on the sc een.
  • y ma 9.
  • -lln paper pulp apparatus the combination of a rotary screen, means for maintaining a diderence in-pressure at the respective sides ot the screen for buildingand retaining a coating ot paper pulp on the m5 screen, means for washing said coating, and moving shields at opposite sides ot the washing. means for mechanically retaining the coating of pulpV on the scre.
  • a rotary screen means for maintaining a difference in pressure at the respective sides of the screen for building and retaining a coating of paper pulp on the screen
  • a paper 4pulp containing tank into which a portion of the periphery of said screen extends
  • a shield having its lower end Within the tank spaced from the screen and extending thence upwardly and converging toward the screen to the upper portion of the tank and thence extending on a curved line conforming substantially to the contour of the screen for a portion of the circumference of the screen.
  • a rotary screen In paper pulp apparatus, the combination of a rotary screen, means for maintaining a rdifference in pressure at the respective sides of the screen for building and retaining a coating of paper pulp on the screen, annuli at opposite sides of the screen having portions extending radially beyond the face of the screen, and a shield extending contiguous to and along the edges of the annuli.
  • the combination with a container for paper pulp, of a rotary screen extending into the container and adapted to be partly submerged in pulp, and traveling shields extending about different exposed portions of the screen at the respective opposing ascending and descending parts of the screen for retainingpulp in engagement therewith.
  • the combination with a container for paper pulp, of a rotary screen adapted to be partly submerged in pulp in the container, and traveling shields extending about exposed portions of the screen, each traveling with the screen and one traveling at a greater rate and the other at a less rate than the screen.
  • the combination with a container for paper pulp, of a rotary screen 'adapted to be partly submerged in pulp in the container, traveling shields extending about exposed portions of the screen, each traveling with the screen and one traveling at a greater rate and the other at a less rate than the screen, and means for delivering water on to pulp sustained ⁇ by the screen between the shields.

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  • Chemical & Material Sciences (AREA)
  • Chemical Kinetics & Catalysis (AREA)
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Description

VV. H. HARDING, In.
PAPER PULP APPARATUS.
APPLICATION man MAR. 4, |915.
Patented Jan. 30, 1917.
A binations and vYork and State of New York, certain new and useful wFlflM.
WILLIAM H. HARDING, JR., 0F NEW YORK, N. Y.
PAPER-PULP APPARATUS.
Specification of Letters Patent.
Patented Jain.. 31D., 19117.
Application led March 4, 1915. Serial No. 12,047.
To all`A whom t may concern:
Be it known that l, WILLIAM H. HARD- ixe, Jr., a citizen of theUnited States, residing a't New York, in the county of New have invented Improvements in and I do hereby Paper-Pulp Apparatus;
be a full, clear, and
declare the following to exact description of the invention, such as will enable others skilled in the art to which it appertains to make and use the saine.
This invention relates to improvements in the art oftreatment of paper pulp and more particularly to apparatus designed for effectively removing and recovering bleaching agents or other chemicals from pulp. One of the objects in view is the effective control of the pulp for maintaining it conditioned to be'subjected to the thickening action of a sucking apparatus drawing fluid away from the pulp, and a further object is the cleansing of the pulp under similar conditions.
With these and still further objects in view, as will in part hereinafter become apparent, and in part be stated, the invention comprises certain novel constructions, comarrangements of parts as will be hereinafter specified and claimed. In the accompanying drawing, Figure 1 is a transverse, axial, sectional elevation of an apparatus embodying the features of the present invention. Fig. 2 is an axial section taken on the plane indicated by line 2 2 of Fig. l. Fig. 3 is a fragmentary section taken on the plane indicated by line 3-3 of Fig. 1. Figs. 4 and 5 are elevations of the coperating disks of the controlling valve detached. Figs. 6 and 8 are, respectively, outline views of slightly modified embodiments, the parts being seen on a reduced scale. Fig. 7 is a cross section taken on the plane of line 7`7 of Fig. 6.
ln the handling of paper pulp, the washing of the bleaching -agent or other chemi- 'cals from the pulp while in an ordinary vat with no attempt at saving the chemicals, or when saved, being in an undesirably dilute form, has become a recognized waste but proposed methods to prevent such waste have not worked out satisfactorily for many reasons, one of which resides in the nature of. the pulp whose porosity is so perfect as j to offer practically no resistance whatever to the passage of water or other cleansing agent. This very condition of porosity also ticularly to overcome renders it dilicult, if not quite impossible, to retain any considerable amounts of pulp on a screen by the sucking ofA air therethrough and also prevents the building by suction of a coating of pulp on the screen having anything like uniformity in bulk or thickness.
The present invention is designed parthe difficulties mentioned, and to render practicable the recovery of chemicals from paper pulp not diluted to an injurious extent.
Referring to the drawing by numerals, 1 indicates a container for paper pulp or waste waters containing fine particles of paper pulp. A false bottom 2 is preferably provided for tank 1. A waste water or pulp supply pipe 3 controlled by a valve 4 discharges into tank 1, or the pulp may be supplied to the tank over the upper edge thereof as preferred.
Journaled in bearings 5, 5, sustained upon or adjacent to tank 1, is a shaft 6 driven by belting not shown engaging a pulley 7 keyed to the shaft. Also keyed to the shaft is a rotaryscreeu or filter consisting of hub portions 8, 8 fixed to shaft 6 and having radial spokes 9 carrying annuli 10 at their outer ends. Connecting the inner edges of the annuli 10 is an impervious plate 11 having outwardly, radially extending flanges 12 at its edges and within and snugly engaging the inenr faces of the annuli 10. A screen 13 either of wire mesh or wire niesh and fabric is fixed to the outer edges of the flanges 12 and completely surrounds and is spaced outwardly radially from plate 11. The annular area inclosed between plate 11 and screen 13 is divided by radial partitions 14, 14 forming sections 15, 15. To each of the sections 15 extends a controlling 16, and all of the pipes 16 project radially inwardly and are then turned to extend axially to communicate with the plate 17 of the controlling valve, the said plate coperating with a. plate 18 to complete the valve, the plate 17 being preferably formed as a part of one of the hub portions 8- and thus being adapted to rotation while the plate 18 is held stationary by being fixed to the support of the adjacent bearing 5. The plate 17 is provided with a port for each pipe 16 extending axially through the plate and disposed to successively register with ports 19, 20, 21 and 22 of plate 18. The port 19 extends axially through the plate 18 and municates with an air suction communicates with a pipe 23 which extends to a suction pump for liquid, not illustrated, the inner face of plate 18 being formed with a circumferentially extended groove 19 for keeping the port 19 in communication with `all of -the pipes 16 of those sections 1'5 which are submerged in tank 1. The port 20 comy ump, not illustrated, through a pipe 2&1, an' the inner face of plate 18 is formed with a circumferentially extended groove 20 communicating with port 20 for enabling the port 20 to maintain communicat-ion with all of the pipes 16 'Whosersections 15 are movinglfrom the liquid level of tank 1 up to the point of cleansing. The cleansing is accomplished Vby thev delivery of water or other cleansing fluid from an elevated tank 25, through apertures 26 in the bottom of the tank down on material carried by the rotary screen. Port 21 communicates through pipe 27 with a water suction pump, not illustrated, distinct from the pump connected with the pipe 23, and the inner face of plate 18 is formed with ,a circumferentially extended groove 21 communicating with port 21 for enabling port 21 to remain in communication with the pipes 16 of theseveral sections 15 from the point of cleansing to the point of discharge. The port 22 communicates through pipe 28 toa source of compressed an' supply, such as a blower, not illustrated, and the port 22 is located for communlcating successively With the pipes 16, one at a time, as the respective sections 15 arrive at the point of discharge. A chute 29 is located for receiving the discharge and is provided with a scraper-like extension 30 projecting between the annuli 10 and disposed with its inner edge adjacent the screen 13.
A confining plate or retaining shield 31 extends from within tank 1 at a point below the rotary screen about the outer edges of the annuli 10 up to the tank 25. The lower portion of shield 31 is spaced from the annuli a considerable distance and is thence tapered toward the annuli until at about the liquid level of tank 4 the shield is substantially in touch with the annuli being spaced therefrom only a distance sufficient to allow the annuli to rotate freely without frictional contact with the shield. The shield 4may be supported by outside framework not illustrated, and lis supported in the structure shown by being fixed to the tank 1, and the tank 25 may be supported in any appropriate way suiiicientlyout of contact with annuli 10 to allow free rotation thereofwithout frictional resistance. In the structure shown, the tank 25 is sustained by the upper end portion of shield 31.
A shield 32 extends from a point adjacent tank 25 about the outer edges of annuli 10' down to substantially the point of disch-arge. The shield 32 is constructed similar to shield close to the annuli 10 to as far as possible prevent lateral spilling of material between the respective shield and the edges of the annuli. v
In operation, the paper pulp from which the chemical or chemicals must be removed is suppliedto tank 1, and the screen, consisting of the entire rotary wheel structure, is revolved while the several pumps connected with pipes 23, 2l, 27 and 28 are operated. Quantities of the pulp are thus drawn against the face of screen 13 for the several sections 15 as they approach the lower portion of shield 31` and the wheel structure should be revolved sufficiently slowly so that the area between the screen 13 and the shield 31 will be substantially filled with pulp. As the pulp-laden portions ofthe screen ascend the inward taper of the shield 31 causes the pulp to become more compact and less liable to fall apart. As the shield 31 extends for substantially ninety degrees, there is no opportunity afforded for the pulp to fall away from the screen 13 and from between the annuli 10. As the pulp passes beneath tank 25 and while it is descending toward the point of discharge, it is washed with water supplied from tank 25. However. before reaching the point of the tank 25, the pulp will have been deprived of as much moisture as the suction pump connected with pipe 2J( can draw therefrom, so
4that the pulp is in the best possible condil richer solution is not diluted, and the weaker solution resulting from cleansing with wash water from tank 25 may be concentrated before re-used in the bleaching vat. n
The shield 32 is employed to insure that the pulp cannot be washed olf from the screen by water supplied from tank 25 and to further insure maintenance of suliieient compactness. to enable the pump connected with pipe 27 to effectively suck the wash water from the pulp. As the pulp passes beneath the lower end `of shield 32, it re `ceives an outwardly acting blast from port 22. and is thus discharged down chute 29.
1n the recovering of finely divided pulp from waste waters, the operation will be substantially the same as that described, except that the screen will be rotated much more slowly to enable the building of an appropriate cake of pulp, and since the lltl nailaee waste waters are usually highly diluted, so far as chemicals are concerned, it will ordinarily not be necessary to use wash water from tank 25. p A f lin 'lFig. 6 l have indicated an embodiment which, for the purposes of the appended claims, may be considered the preferred emhodiment, and in which the rotary wheel or screen 10" is provided with an endless belt 31 disposed to act as amoving shield so as to retain the pulp in lace and to move in the same direction wit it to thereby eliminate liability ot' clogging from friction, and to further aid the retention of th pulp the belt 31 is driven slightly faster than the rate of travel of the peripheral portion of screen l0. rllhe shield portion 3l within the tank is stationary. A shieldy 32 consisting of belting driven slightlyslower than the travel of the peripheral portion of screen 10 is located at the discharge side of the screen,land both belts 31 and 32 are of ,awidth and are located to fit between the annuli of the screen structure. The structure is otherwise identical in detail and function to that just described. f
lln Fig. 7 is shown another modiiedembodiment consisting ot the rotary wheel or screen l0 having at one side a shield consisting of a series of rollers 3113JL disposed to operate in lieu of the upper portion of shield 31', and having at the other side rollers 32a operating in lieu of shield-32, the struc-f ture being otherwise the same in function and detail as that specified with respect to lFig. 1; Rollers 31,and 32 may be geared and driven, and are respectively driven at rates ing to the rates of travel of belts respectively.
ll claim l; ln aper vpulp apparatus, the combination o? a rotary screen adapted to have its lower portion dipping into a. body of paper pulp, means for confining paper pulp in quantities ot a thickness exceeding the correspond- 3'1 and 32 Vmaximum thickness of felt-elevated sheets feo ot/ pulp,l and mechanically directing the same toward and againstv the screen, and ren taining it in engagement with the screen while such pulp is in substantially a vertical position. i v
`v2. ln paper pulp apparatus, the combination oi'l a rotary screen, a vat in which said lscreen rotates, means for maintaining a vdi'erence in pressure between the exterior and interior surfaces of the screen for causing paper pulp to collect in the form of a coating Aon the screen while in the vat in A-quantities exceeding in thickness the maximum thickness of telt-elevatedT sheets of pulp, and means tor conhning the coating of pulp against dislodgnient from the screen dluring ascent from the body ot pulp in tie "at in that event', the rollers c 3. lin paper pulp apparatus, the combination ot a rotary' screen, a vat for containing' paper pulp into which the screen extends, means for maintaining a difference in pressure at 'the respective faces ot thev screen 7p for building and retaining a coating of pulp on the exposed face of the screen, lmeans directing paper pulp in the vat toward the exposed tace of the screen, and additional means moving in the direction of travel of 7h the screen for retaining the coating ot pulp on the screen while substantially vertical.
spective sides of the screen for building and retaining a coating of pa erpulp on the lao screen, additional means or retaining the coating of pulp on the screen, and means for Washing the pulp while so retained.
6. lln paper pulp apparatus, ythe, combination of a rotary screen, means for main- 05 taining a diderence in pressure at the respective sides of the screen for building and retaining a coating of pulp on the screen and for exhausting moisture from the coating so built, additional means for retaining' 100 the coating of pulp on the screen, and means for washing the pulp while so retained subsequent to such exhausting of moisture.
7: lln paper pulp apparatus, the combination of a rotary screen, means for main- 105 tainlng a dderence 1n pressure at the respective sides of the screen for building and retaining a coating of pulp on the screen, and a shield for mechanically directing the pulp toward and retaining the coating of pulp on ascending portions of the screen.
lln paper pulp apparatus, the combination of a rotary screen, means for maintaining a diderence in pressure at the respective sides of the: screen for building and M5 retaining a coating ot paper pulp on the screen, means or Washing said coating, and shields at opposite sides of the washing means tor mechanicall retaining the coating of pulp on the sc een. y ma 9. -lln paper pulp apparatus, the combination of a rotary screen, means for maintaining a diderence in-pressure at the respective sides ot the screen for buildingand retaining a coating ot paper pulp on the m5 screen, means for washing said coating, and moving shields at opposite sides ot the washing. means for mechanically retaining the coating of pulpV on the scre.
10. ln paper pulp apparatus, the an No nation of a rotary screen, means for maintalnlng a difference 1n pressure atthe respectlve sldes of the screen for building and retaining a coating of paper pulp on the screen, means for washing the coating of pulp, and a shield at one side of the washing means for mechanically retaining the coat-ing of pulp on the screen.
1l. In paper pulp apparatus, the combination of a rotary screen, means for maintaining a difference in pressure at the respective sides of the screen for building and retaining a coating of paper pulp on the screen, and a shield spaced from the screen at the point of approach of the built-up coating toward. the shield, the shield converging thence toward and conforming ,substantially to the contour of the screen for a portion of its circumferencein position for directing pulp toward and retaining` pulp on ascending portions of the screen in quantities exceeding in thickness the maximum thickness of felt-carried sheets of pulp.
12. In paper pulp apparatus, the combination of a rotary screen, means for maintaining a difference in pressure at the respective sides of the screen for building and retaining a coating of paper pulp on the screen, a paper 4pulp containing tank into which a portion of the periphery of said screen extends, and a shield having its lower end Within the tank spaced from the screen and extending thence upwardly and converging toward the screen to the upper portion of the tank and thence extending on a curved line conforming substantially to the contour of the screen for a portion of the circumference of the screen.
13. In paper pulp apparatus, the combination of a rotary screen, means for maintaining a rdifference in pressure at the respective sides of the screen for building and retaining a coating of paper pulp on the screen, annuli at opposite sides of the screen having portions extending radially beyond the face of the screen, and a shield extending contiguous to and along the edges of the annuli.
14. In paper pulp apparatus, the combination with a pulp container, of a rotary screen extending into the container and adapted to bev partly submerged in pulp therein, and a traveling shield extending about an exposed portion of. the screen for aiding in maintaining pulp in contact therewith, and retaining means for confining the pulp against the screen between the plane of the surface of the pulp in the container and the lower portion of the traveling shield.
15. In paper pulp apparatus, the combination, with a container for paper pulp, of a rotary screen extending into the container and adapted to be partly submerged in pulp, and traveling shields extending about different exposed portions of the screen at the respective opposing ascending and descending parts of the screen for retainingpulp in engagement therewith. i
16. In paper pulp apparatusthe combination, with a container for paper pulp, of a rotary screen extending into the container and adapted to be partly submerged in pulp, and a shield traveling with the peripheral portion of the screen about an exposed portion thereof and at a less rapid rate.
17. In paper pulp apparatus, the combination, with a container for paper pulp, of a rotary screen adapted to be partly submerged in pulp in the container, and traveling shields extending about exposed portions of the screen, each traveling with the screen and one traveling at a greater rate and the other at a less rate than the screen.
18. In paper pulp apparatus, the combination, with a container for paper pulp, of a rotary screen 'adapted to be partly submerged in pulp in the container, traveling shields extending about exposed portions of the screen, each traveling with the screen and one traveling at a greater rate and the other at a less rate than the screen, and means for delivering water on to pulp sustained`by the screen between the shields.
In testimony whereof I al'ix my signature in presence of two witnesses.
WILLIAM H. HARDING, JR.
Witnessesz' EDGAR M. KrrcHrN, HERMAN A. HOLSTER.
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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2625273A (en) * 1949-12-02 1953-01-13 Arthur A Schuller Invertible filter unit
US3255888A (en) * 1963-02-14 1966-06-14 Stockdale Engineering Ltd Continuous filteration and extraction apparatus
US20210252436A1 (en) * 2018-06-21 2021-08-19 Valmet Ab Vacuum filter

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2625273A (en) * 1949-12-02 1953-01-13 Arthur A Schuller Invertible filter unit
US3255888A (en) * 1963-02-14 1966-06-14 Stockdale Engineering Ltd Continuous filteration and extraction apparatus
US20210252436A1 (en) * 2018-06-21 2021-08-19 Valmet Ab Vacuum filter
US11980837B2 (en) * 2018-06-21 2024-05-14 Valmet Ab Rotary drum vacuum filter with a throttling valve

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