US3291682A - Suction cylinder mold for making paper - Google Patents

Suction cylinder mold for making paper Download PDF

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US3291682A
US3291682A US309229A US30922963A US3291682A US 3291682 A US3291682 A US 3291682A US 309229 A US309229 A US 309229A US 30922963 A US30922963 A US 30922963A US 3291682 A US3291682 A US 3291682A
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suction box
water
cylinder
compartment
air
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US309229A
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Hellstrom Klas
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Ivacan Inc
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Ivacan Inc
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    • DTEXTILES; PAPER
    • D21PAPER-MAKING; PRODUCTION OF CELLULOSE
    • D21FPAPER-MAKING MACHINES; METHODS OF PRODUCING PAPER THEREON
    • D21F1/00Wet end of machines for making continuous webs of paper
    • D21F1/60Cylinder moulds

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  • This invention relates to suction moulds for use in the manufacture of pulp for paper making, and particularly to the suction box forming a part of the suction mould and having individual channels for the removal of air and water from the apparatus.
  • the first portion of the drainage is effected only by the hydrostatic head of the pulp suspension in the vat of the machine.
  • the amount of water drainage in this section will depend on the drainage characteristics of the pulp suspension and time. Thus for a slow draining stock the time under normal operating conditions may not be sufiicient to allow for suflicient drainage to fill the drainage channels of the machine with water.
  • these channels pass into the vacuum section of the suction box, they will contain air as well as water. The air thus remaining will expand and release energy and cause air entrainment of the water that is removed from the suction box. If this water is recirculated for dilution of new pulp being delivered to the machine, the air entrainment will tend to slow the drainage of the pulp and thereby reduce the capacity of the machine.
  • the present invention consists essentially in the provision of a suction box on the discharge end of the suction mould the said suction box having two main compartments both of which are in communication with the individual drainage channels of the machine.
  • One of these two main compartments which is first in communication with water and air filled drainage channels of the machine is connected directly, by means of an enclosed passage or external pipe with the vacuum connection to the suction box for the purpose of initially extracting all or a large proportion of the air and so substantially reduce the entrainment of air to the recirculated water.
  • the second of the main compartments of the suction box functions in the usual manner to extract the remainder of the water from the individual drainage channels of the machine.
  • the object of the invention is to provide a suction box for suction moulds in which means are provided to extract a large proportion of air from the drainage water in the initial stage of water drainage.
  • a further object of the invention is to provide means in a suction box whereby, in the first stage of water drainage from a suction mould, the air is extracted from the water and removed.
  • a further object of the invention is to provide a suction box having two compartments both of which are connected to a common suction connection, one of the compartments being an air extraction compartment and the other a water extraction compartment.
  • FIG. 1 is a vertical end elevation of the suction mould looking on the drive end of the machine and showing the suction box mounted on the end frame.
  • FIG. 2 is a longitudinal vertical section taken on the line 2-2 of FIG. 3.
  • FIG. 3 is a vertical transverse section through the suction box taken on the line 33 of FIG. 2.
  • FIG. 4 is a longitudinal sectional diagram of the suction mould illustrating the separate air and water extraction features of the machine.
  • FIG. 5 is a transverse diagram of the apparatus shown in FIG. 4 showing the air and water extraction compartments of the suction box.
  • FIG. 6 is a diagram similar to FIG. 5 without the air extraction compartment and representing the present mode of operation.
  • the suction mould 5 consists of a cylinder 6 mounted on the shaft 7 and rotatively mounted in the end bearings 8 which are supported on the stationary end frames 9, at each end of the pulp vat 10.
  • the inner deck 11 of the cylinder 6 is imperforate while the outer deck 12 is a perforated shell.
  • the outer perforated deck 12 is generally covered by a wire mesh, not shown in the drawings.
  • the inner deck 11 is slightly tapered inwardly towards the discharge end of the machine and is provided with a multitude of longitudinal spacers 13 which support the outer deck 12 and form a multitude of longitudinal water drainage channels 14 closed at one end and at the opposite end terminating in the openings 15 located between the inner and outer annular seal rings 16 and 17.
  • the cylinder 6 rotates in the vat 10 which is continuously fed with an aqueous suspension of wood fibre which is picked up on the outer deck 12 and the water is drained out through the drainage channels 14.
  • the suction box 18 is here shown as being of horseshoe shape and is supported in place against the discharge end of the cylinder 6 by the brackets 19 secured to the stationary end frames 9.
  • the upper and lower extremities 20 and 21 of the horseshoe shaped suction box are located above and below the horizontal centreline of the cylinder 6 and are projected towards the pulp sheet take-ofi' side of the machine, leaving exposed to the atmosphere a section of drainage openings 15 immediately after the takeoff of the pulp sheet 22 from the cylinder 6.
  • the vertical face of the suction box 18 facing towards the drainage end of the cylinder 6 is provided with inner and outer arcuate sealing strips 23 and 24 defining an arcuate opening 25 in direct communication with the adjacent drainage channels 14. End sealing strips 26 and 27 combine with the arcuate sealing strips 23 and 24 to seal the suction box from the atmosphere.
  • the suction box 18 is provided with a white water discharge connection 28 located just below the horizontal centreline of the machine, and a vacuum connection 29 adjacent to the end of the upper extremity 20 of the suction box.
  • a vertical division plate 30 is located within the lower extremity 21 of the suction box to divide the suction box into two compartments, an air extraction compartment 31 occupying the lower extremity 21 of the suction box, and a water compartment 32 occupying the remainder of the suction box.
  • An arcuate air passageway 33 is formed within the water compartment by the plate 34. This air passageway 33 extends from the division plate 30 around the inner arcuate surface of the suction box to within a short distance of the vacuum connection 29.
  • the air passageway 33 is open at both ends and is in direct communication with the air extraction chamber 31 at one end and with the water compartment 32 and with the vacuum connection 29 at its opposite end. Sealing strips 35 located between the arcuate sealing strips 23 and 24 at the location of the division plate 30, seal the air extraction compartment 31 from the water compartment 32.
  • the operation of the invention will be described with particular reference to FIGS. 4, 5 and 6.
  • the pulp stock enters the vat 10 through the stock inlet 36 and is picked up by the rotating cylinder '6 in well known manner.
  • the section H of the apparatus Since the section H of the apparatus is connected to atmosphere, the first portion of drainage from the channels 14 is effected only by hydrostatic head of the pulp suspension in the vat 10.
  • the amount of water drained in the section H will depend on the drainage characteristics of the -pulp suspension and time. Thus for a slow draining stock, the time under normal operating conditions may not be sutficient to allow for suflicient drainage to fill the channels 14 with water.
  • the vacuum section K FIG. 6
  • they will contain air as well as water.
  • the air thus remaining in the Water will expand and release energy and cause air entrainment of the water that is removed from the suction box. If this water is recirculated for dilution of new pulp coming to the vat 10 of the machine, the air entrainment will tend to slow down the drainage of the pulp and there by reduce the capacity of the machine.
  • the present invention avoids or substantially reduces the degree of air entrainment.
  • vacuum effected through the passageway 33 extracts a large percentage of air from the Water. Therefore as the channels 14 move into communication with the compartment 32, very little, if any, air is entrained and the water from this compartment 32 can be used to the utmost advantage for recirculation with new pulp delivered to the vat 10 without any decrease in the efficiency or capacity of the machine.
  • FIG. 4 the air extracted from the water in the compartment 31 is shown being taken away through the external connection I, while the water from the compartment 32 is taken away through the external connection L. Under certain circumstances it may be more advantageous to replace the internal passageway 33 with the external connection I in FIG. 4.
  • a suction mould for drying pulp in which a cylinder is rotatably mounted in a pulp vat between stationary bearings, and a stationary suction box is mounted in sealing contact with the discharge end of the said cylinder, the said cylinder having an outer perforated peripheral surface and a series of longitudinal water drainage channels located immediately under the perforated surface of said channel, the said drainage channels communicating with the atmosphere and with said suction box, a first ai-rextraction compartment and a second water drainage compartment in said suction box, the said air extraction compartment being located adjacent the lower end of .the vertical centreline of the cylinder, vacuum means in said suction box located adjacent the upper end of the said centreline of the cylinder and an'internal passage in the suction box connecting the said air extraction compart ment with said vacuum means, the said vacuum means in operation, separately extracting air and water from said drainage channels through said first air extraction compartment and said second Water drainage compartment.
  • a suction mould for drying pulp comprising a perforated cylinder, a series of longitudinal drainage channels located on the inner peripheral surface of the perforated cylinder, the said channels draining towards one ,end of the said cylinder, a stationary suction box mounted on one end of said cylinder and in communication with the drainage ends of the said drainage channels, the said suction box having a horseshoe shape with the extremities of the horseshoe shape being located above and below the horizontal centreline of the said cylinder, a division plate in the lower extremity of the horseshoe suction box to form separate air extraction and water drainage compartments, the said air extraction compartment being located in the lower extremity of the horseshoe suction box and the water drainage compartment extending around the horseshoe shape towards the upper extremity of the suction box, an air passageway in said water drainage compartment, the said air passageway at its lower end communioating with the said air extraction compartment and at its upper and opposite end communicating with the said water drainage compartment adjacent the upper extremity of the suction box, and vacuum means connected with the upper extremity of

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Description

Dec. 13, 1966 K. HELLSTROM 3,291,682
SUCTION CYLINDER MOLD FOR MAKING PAPER Filed Sept. 16, 1963 2 Sheets-Sheet M IZ /NVENTOR Kins f/Ell 5 rRoM Dec. 13, 1966 K. HELLSTROM 3,291,682
SUCTION CYLINDER MOLD FOR MAKING PAPER Filed Sept. 16, 1963 2 Sheets-Sheet 2 /NVr ITOR Kins HELLSTROM United States Patent ()fiiice 3,291,682 SUCTION CYLINDER MOLD FOR MAKING PAPER Klas Hellstrom, Mount Royal, Quebec, Canada, assrguor to Canada Iron Foundries, Limited, Quebec, Canada Filed Sept. 16, 1963, Ser. No. 309,229 4 Claims. (Cl. 162357) This invention relates to suction moulds for use in the manufacture of pulp for paper making, and particularly to the suction box forming a part of the suction mould and having individual channels for the removal of air and water from the apparatus.
Since a substantial area of the suction box is connected to atmosphere, the first portion of the drainage is effected only by the hydrostatic head of the pulp suspension in the vat of the machine. The amount of water drainage in this section will depend on the drainage characteristics of the pulp suspension and time. Thus for a slow draining stock the time under normal operating conditions may not be sufiicient to allow for suflicient drainage to fill the drainage channels of the machine with water. Thus, as these channels pass into the vacuum section of the suction box, they will contain air as well as water. The air thus remaining will expand and release energy and cause air entrainment of the water that is removed from the suction box. If this water is recirculated for dilution of new pulp being delivered to the machine, the air entrainment will tend to slow the drainage of the pulp and thereby reduce the capacity of the machine.
The present invention consists essentially in the provision of a suction box on the discharge end of the suction mould the said suction box having two main compartments both of which are in communication with the individual drainage channels of the machine. One of these two main compartments which is first in communication with water and air filled drainage channels of the machine is connected directly, by means of an enclosed passage or external pipe with the vacuum connection to the suction box for the purpose of initially extracting all or a large proportion of the air and so substantially reduce the entrainment of air to the recirculated water. The second of the main compartments of the suction box functions in the usual manner to extract the remainder of the water from the individual drainage channels of the machine.
The object of the invention is to provide a suction box for suction moulds in which means are provided to extract a large proportion of air from the drainage water in the initial stage of water drainage.
A further object of the invention is to provide means in a suction box whereby, in the first stage of water drainage from a suction mould, the air is extracted from the water and removed.
A further object of the invention is to provide a suction box having two compartments both of which are connected to a common suction connection, one of the compartments being an air extraction compartment and the other a water extraction compartment.
These and other objects of the invention will be apparent from the following detailed specification and the accompanying drawings, in which:
FIG. 1 is a vertical end elevation of the suction mould looking on the drive end of the machine and showing the suction box mounted on the end frame.
FIG. 2 is a longitudinal vertical section taken on the line 2-2 of FIG. 3.
FIG. 3 is a vertical transverse section through the suction box taken on the line 33 of FIG. 2.
FIG. 4 is a longitudinal sectional diagram of the suction mould illustrating the separate air and water extraction features of the machine.
3,29lfi82 Patented Dec. 13, 1966 FIG. 5 is a transverse diagram of the apparatus shown in FIG. 4 showing the air and water extraction compartments of the suction box.
FIG. 6 is a diagram similar to FIG. 5 without the air extraction compartment and representing the present mode of operation.
Referring to the drawings, the suction mould 5 consists of a cylinder 6 mounted on the shaft 7 and rotatively mounted in the end bearings 8 which are supported on the stationary end frames 9, at each end of the pulp vat 10. The inner deck 11 of the cylinder 6 is imperforate while the outer deck 12 is a perforated shell. The outer perforated deck 12 is generally covered by a wire mesh, not shown in the drawings.
The inner deck 11 is slightly tapered inwardly towards the discharge end of the machine and is provided with a multitude of longitudinal spacers 13 which support the outer deck 12 and form a multitude of longitudinal water drainage channels 14 closed at one end and at the opposite end terminating in the openings 15 located between the inner and outer annular seal rings 16 and 17.
The cylinder 6 rotates in the vat 10 which is continuously fed with an aqueous suspension of wood fibre which is picked up on the outer deck 12 and the water is drained out through the drainage channels 14.
The suction box 18 is here shown as being of horseshoe shape and is supported in place against the discharge end of the cylinder 6 by the brackets 19 secured to the stationary end frames 9. The upper and lower extremities 20 and 21 of the horseshoe shaped suction box are located above and below the horizontal centreline of the cylinder 6 and are projected towards the pulp sheet take-ofi' side of the machine, leaving exposed to the atmosphere a section of drainage openings 15 immediately after the takeoff of the pulp sheet 22 from the cylinder 6.
The vertical face of the suction box 18 facing towards the drainage end of the cylinder 6 is provided with inner and outer arcuate sealing strips 23 and 24 defining an arcuate opening 25 in direct communication with the adjacent drainage channels 14. End sealing strips 26 and 27 combine with the arcuate sealing strips 23 and 24 to seal the suction box from the atmosphere. The suction box 18 is provided with a white water discharge connection 28 located just below the horizontal centreline of the machine, and a vacuum connection 29 adjacent to the end of the upper extremity 20 of the suction box.
A vertical division plate 30 is located within the lower extremity 21 of the suction box to divide the suction box into two compartments, an air extraction compartment 31 occupying the lower extremity 21 of the suction box, and a water compartment 32 occupying the remainder of the suction box.
An arcuate air passageway 33 is formed within the water compartment by the plate 34. This air passageway 33 extends from the division plate 30 around the inner arcuate surface of the suction box to within a short distance of the vacuum connection 29. The air passageway 33 is open at both ends and is in direct communication with the air extraction chamber 31 at one end and with the water compartment 32 and with the vacuum connection 29 at its opposite end. Sealing strips 35 located between the arcuate sealing strips 23 and 24 at the location of the division plate 30, seal the air extraction compartment 31 from the water compartment 32.
The operation of the invention will be described with particular reference to FIGS. 4, 5 and 6. The pulp stock enters the vat 10 through the stock inlet 36 and is picked up by the rotating cylinder '6 in well known manner. Since the section H of the apparatus is connected to atmosphere, the first portion of drainage from the channels 14 is effected only by hydrostatic head of the pulp suspension in the vat 10. The amount of water drained in the section H will depend on the drainage characteristics of the -pulp suspension and time. Thus for a slow draining stock, the time under normal operating conditions may not be sutficient to allow for suflicient drainage to fill the channels 14 with water. Thus, as these channels 14 pass into the vacuum section K (FIG. 6), they will contain air as well as water. The air thus remaining in the Water will expand and release energy and cause air entrainment of the water that is removed from the suction box. If this water is recirculated for dilution of new pulp coming to the vat 10 of the machine, the air entrainment will tend to slow down the drainage of the pulp and there by reduce the capacity of the machine.
The present invention, as illustrated in the diagrams FIGS. 4 and 5, avoids or substantially reduces the degree of air entrainment. As the channels 14 pass from the area H and into communication with the air extraction compartment 31, vacuum effected through the passageway 33, extracts a large percentage of air from the Water. Therefore as the channels 14 move into communication with the compartment 32, very little, if any, air is entrained and the water from this compartment 32 can be used to the utmost advantage for recirculation with new pulp delivered to the vat 10 without any decrease in the efficiency or capacity of the machine.
In FIG. 4 the air extracted from the water in the compartment 31 is shown being taken away through the external connection I, while the water from the compartment 32 is taken away through the external connection L. Under certain circumstances it may be more advantageous to replace the internal passageway 33 with the external connection I in FIG. 4.
With the above described improvement in suction box construction and operation as applied to suction moulds a higher efiiciency in Water drainage is obtained, resulting in the machine being able to Work to full capacity and permitting the use of recirculated Water substantially free of entrained air.
What I claim is:
1. A suction mould for drying pulp in which a cylinder is rotatably mounted in a pulp vat between stationary bearings, and a stationary suction box is mounted in sealing contact with the discharge end of the said cylinder, the said cylinder having an outer perforated peripheral surface and a series of longitudinal water drainage channels located immediately under the perforated surface of said channel, the said drainage channels communicating with the atmosphere and with said suction box, a first ai-rextraction compartment and a second water drainage compartment in said suction box, the said air extraction compartment being located adjacent the lower end of .the vertical centreline of the cylinder, vacuum means in said suction box located adjacent the upper end of the said centreline of the cylinder and an'internal passage in the suction box connecting the said air extraction compart ment with said vacuum means, the said vacuum means in operation, separately extracting air and water from said drainage channels through said first air extraction compartment and said second Water drainage compartment.
2. A suction mould for drying pulp comprising a perforated cylinder, a series of longitudinal drainage channels located on the inner peripheral surface of the perforated cylinder, the said channels draining towards one ,end of the said cylinder, a stationary suction box mounted on one end of said cylinder and in communication with the drainage ends of the said drainage channels, the said suction box having a horseshoe shape with the extremities of the horseshoe shape being located above and below the horizontal centreline of the said cylinder, a division plate in the lower extremity of the horseshoe suction box to form separate air extraction and water drainage compartments, the said air extraction compartment being located in the lower extremity of the horseshoe suction box and the water drainage compartment extending around the horseshoe shape towards the upper extremity of the suction box, an air passageway in said water drainage compartment, the said air passageway at its lower end communioating with the said air extraction compartment and at its upper and opposite end communicating with the said water drainage compartment adjacent the upper extremity of the suction box, and vacuum means connected with the upper extremity of the suction box adjacent the upper end of said air passageway.
3. A suction mould as set forth in claim 2 in which the said suction box is of rectangular cross section and the said air passageway is formed by a plate secured to two adjacent sides of the suction box.
4. A suction mould as set forth in claim 2 in which the uppper extremity of the horseshoe shaped suction box is located adjacent to and approximately level with the pulp sheet take-off of the machine.
References Cited by the Examiner UNITED STATES PATENTS 12/1953 Johansen 210-404 2,952,317 9/1960 Majanlahti 162-357 DONALL H. SYLVESTER, Primary Examiner.
J. H. NEWSOME, Assistant Examiner.

Claims (1)

1. A SUCTION MOULD FOR DRYING PULP IN WHICH A CYLINDER IS ROTATABLY MOUNTED IN A PULP VAT BETWEEN STATIONARY BEARINGS, AND A STANTIONARY SUCTION BOX IS MOUNTED IS SEALING CONTACT WITH THE DISCHARGE END OF THE SAID CYLINDER, THE SAID CYLINDER HAVING AN OUTER PERFORATED PERPHERAL SURFACE AND A SERIES OF LONGITUDINAL WATER DRAINAGE CHANNELS LOCATED IMMEDIATELY UNDER THE PERFORATED SURFACE OF SAID CHANNEL, THE SAID DRAINAGE CHANNELS COMMUNICATING WITH THE ATMOSPHERE AND WITH SAID SUCTION BOX, A FIRST AIR EXTRACTION COMPARTMENT AND A SECOND WATER DRAINAGE COMPARTMENT IN SAID SUCTION BOX, THE AIR EXTRACTION COMPARTMENT BEING LOCATED ADJACENT THE LOWER END OF THE VERTICAL CENTRELINE OF THE CYLINDER, VACUUM MEANS IN SAID SUCTION BOX LOCATED ADJACENT THE UPPER END OF SAID CENTRELINE OF THE CYLINDER AND AN INTERNAL PASSAGE IN THE SUCTION BOX CONNECTING THE SAID AIR EXTRACTION COMPARTMENT WITH SAID VACUUM MEANS, THE SAID VACUUM MEANS IN OPERATION, SEPARATELY EXTRACTING AIR SAID WATER FROM SAID DRAINAGE CHANNELS THROUGH SAID FIRST AIR EXTRACTION COMPARTMENT AND SAID SECOND WATER DRAINAGE COMPARTMENT.
US309229A 1963-09-16 1963-09-16 Suction cylinder mold for making paper Expired - Lifetime US3291682A (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0094994A1 (en) * 1982-05-21 1983-11-30 Exxon Research And Engineering Company Improved rotary drum filter
EP0902121A3 (en) * 1997-09-09 2000-04-05 Tokushu Paper Manufacturing Co. Ltd Method and device for paper web manufacturing
WO2021228514A1 (en) * 2020-05-14 2021-11-18 TRüTZSCHLER GMBH & CO. KG System and method for producing a single- or multi-layer nonwoven

Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2663432A (en) * 1949-05-23 1953-12-22 Kamyr Ab Inclined rotary vacuum filter
US2952317A (en) * 1953-02-27 1960-09-13 Paper Machinery Ltd Suction moulds

Patent Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2663432A (en) * 1949-05-23 1953-12-22 Kamyr Ab Inclined rotary vacuum filter
US2952317A (en) * 1953-02-27 1960-09-13 Paper Machinery Ltd Suction moulds

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0094994A1 (en) * 1982-05-21 1983-11-30 Exxon Research And Engineering Company Improved rotary drum filter
EP0902121A3 (en) * 1997-09-09 2000-04-05 Tokushu Paper Manufacturing Co. Ltd Method and device for paper web manufacturing
US6203666B1 (en) 1997-09-09 2001-03-20 Tokushu Paper Mfg. Co., Ltd. Method and device for paper web manufacturing
WO2021228514A1 (en) * 2020-05-14 2021-11-18 TRüTZSCHLER GMBH & CO. KG System and method for producing a single- or multi-layer nonwoven
US12338562B2 (en) 2020-05-14 2025-06-24 Trützschler Group SE System and method for producing a single- or multi-layer nonwoven

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