US2744453A - Reverse press assembly - Google Patents

Reverse press assembly Download PDF

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US2744453A
US2744453A US185823A US18582350A US2744453A US 2744453 A US2744453 A US 2744453A US 185823 A US185823 A US 185823A US 18582350 A US18582350 A US 18582350A US 2744453 A US2744453 A US 2744453A
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press
felt
web
suction
roll
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US185823A
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Hornbostel Lloyd
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Beloit Iron Works Inc
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Beloit Iron Works Inc
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    • DTEXTILES; PAPER
    • D21PAPER-MAKING; PRODUCTION OF CELLULOSE
    • D21FPAPER-MAKING MACHINES; METHODS OF PRODUCING PAPER THEREON
    • D21F3/00Press section of machines for making continuous webs of paper
    • D21F3/02Wet presses
    • D21F3/04Arrangements thereof
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10STECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10S162/00Paper making and fiber liberation
    • Y10S162/07Water collectors, e.g. save-alls

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  • the present invention relates to a paper machine reverse press assembly and more particularly to a reverse press assembly for a paper making machine. wherein a single press felt is trained through the consecutive reverse press nips of a suction press assembly to convey a moist paper web therethrough.
  • the press assembly of the present invention contemplates generally the utilization of a pick-up felt trained about a suction pick-up roll for removing a moist paper web from a foraminous forming surface of the paper making machine forming part, such as a Fourdrinier wire.
  • the pick-up felt is next trained through the press nip of a suction press to convey the moist web therethrough.
  • This first press assembly includes a plain press roll and a suction press roll, the suction press roll being positioned within the loop of a continuous press felt so that the press felt is also trained through the press nip with the suction area of the press roll being effective to transfer the moist paper web to the press felt at the nip.
  • the press felt is next trained through the nip of a reverse suction press including a plain press roll positioned with in the loop of the continuous press felt and a suction press roll positioned within the loop of a continuous second? press felt.
  • the suction press roll of the second press is effective to transfer the moist paper web from the first press felt to the second press felt, so that the second press felt conveys the web to an additional suction press roll positioned within the loop of the second press felt and cooperating with a dryer machine part, such as a Yankee dryer drum, to form an additional press nip.
  • the moist paper web is transferred to the Yankee dryer drum or like dryer part for conveyance about the periphery of the dryer drum.
  • the present invention thus utilizes a single press felt for conveying a moist paper Web to a first suction press and through a second reverse suction press.
  • the suction at the presses not only serves to de-water the moist paper web, but also to effectuate the transfer of the moist paper web through the entire press assembly, with the Web being supported at all times during its passage therethrough to eliminate the possibilities of web breakagedue to tension placed upon the Web during the pressing opera: tion.
  • an important object of the present invention to provide an improved paper machine press section including a suction press, a reverse suction press, and a common felt trained through both the suction press and the reverse suction press nips in order that the moist paper web may be adequately supported by the felt throughout its entire travel through the press assembly.
  • Another important object of the present invention is to provide a press assembly for a paper making machine including a suction press and a reverse suction press together with felt carriers for conveying a moist paper web through each of the presses with the suction areas of the presses each being efiective to transfer the paper web through they assembly.
  • Still another important object of the present invention is to'provide a reverse suction press assembly wherein each transfer of a moist paper web through the entire press assembly is made'under' the influence of vacuum and the paper web is supported by a felt carrier during its entire passage through the press assembly, the felt carriers including a single felt bridging the press nips of the reverse press assembly.
  • the single. figure of the drawing is a schematic representation of'a paper making machine reverse press assembly of the'present'invention.
  • reference numeral 10 refers generally to a foraminous forming wire surface, such as a Fourdrinier forming Wire trained about a suction couch roll v uum suctionvarea- 18 of the roll 17, and the web W is held'upon the felt 15- after transfer'has been effected by a relatively low vacuum suction area 1 9, in which the degree of vacuum is controlled? by a butterfly control valve 20.
  • the pick-up. felt '15 is next trained through a suction press nip 122 defined by an upper plain press roll 23 located within the loop of the continuous pick-up felt 15' and a lowersuction press roll 24 having a suction area 25' located atsthe nip 22.
  • the suction area 25 of the roll 24 is lapped by a lower first press felt 26 which is also trained; through the nip 22 and which receives the web W from the pick-up felt 15'.
  • a clean transfer of the web W to the felt 26 is effected by the suction area 25 of the roll 24, WhlChi'SllCtlOIl' area also serves to remove residual moisture squeezed from the Web by the mechanical and differential fluid pressure exerted at the press nip 22.
  • the press felt ,26 is gathered into contact with the web and the roll 24' by means of a plurality of guide rolls 27 and a conventional arcuate save-all pan 28 is provided about the ,roll- 24 to receive Water centrifugally flung from the perforated periphery of a suction roll 24.
  • the felt and web are. next trained through the nip 30 of a reverse suction press defined by a lower plain press roll 31 located within the loop- .of the endless press felt 26 in spaced relation to and in substantially horizontal alignment with the suction press roll 24; An arcuate save-all pan 32 is also provided'for the roll 31.
  • suction nip 30 is defined by the roll 31' in cooperation-with asuperimposed suctionpress roll 33 having an arcuate suction area 35 at the mp 30.
  • a transfer felt, or second press felt, 36 is lapped about the roll- 33 for passage through the nip 30 in lapping relation with the suction area .35 of the suction roll 33.
  • the transfer felt 36' receives the web W from the press felt 26, and the' felt36 is guided in a substantially horizontal plane from the nip 30 for-passage about an addi t-ional suction roll 31.
  • the .l'eulrn reach of the transfer felt) 36- to the; suction roll 33 is. accomplished by passage of the felt about felt guide rolls 38 and an arcuate saveall pan 39 is provided about the roll 33 within the loop of the felt 36.
  • the additional roll 37 is provided with an arcuate suction area 40 lapped by the felt 36, and a save-all pan 41 is provided for the roll 37.
  • the roll 37 is mounted in press nip relation to an adjacent dryer drum 42, such as a Yankee dryer, forming a portion of the dryer part of the paper making machine. Transfer of the web W to the Yankee dryer drum 42 is accomplished at the nip 43 therebetween, and the suction area 40 of the roll 37 is provided with a butterfly vacuum control valve 44 for regulating the degree of vacuum within the suction area so as to prevent interference with web transfer while accommodating removal of residual moisture squeezed from the web W at the nip.
  • the web W travels about the periphery of the Yankee dryer drum 42 and is removed therefrom by a doctor blade 45.
  • the suction area 25 of the roll 24 causes transfer of the web W to the press felt 26, and at the same time this suction area 25 removes residual moisture squeezed from the Web at the nip 22.
  • the press felt 26 bridges the gap between the suction press nip 22 and the reverse suction press nip 30, so that the web is at all times supported by a felt.
  • Transfer of the web from the press felt 26 to the transfer felt 36 is caused by the suction area 35 of the roll 33, and the felt 36 serves to transfer the web to the dryer drum 42, while the additional suction roll 37 gives an additional pressing action at the drier drum.
  • suction areas 25 and 35 exert differential fiuid pressures upon opposing sides of the Webb W to yield most advantageous and efficient water removal from the web.
  • the efficient utilization of the three felts 15, 26 and 36 results in a compact, inexpensive reverse press assembly wherein the Web is transferred at all times under the influence of vacuum, the web is at all times supported by a felt carrier, and a single press felt is utilized for conveying the web through both the suction press nip 22 and the reverse suction press nip 30.
  • a press section for removing wet web from a paper machine forming wire and pressing the same, comprising a looped pick-up felt, a suction pick-up roll within the loop of said pick-up felt directing the felt against the web on top of the wire for transferring the web to the underface of the pick-up felt, a looped bottom felt, a first press having a horizontal nip defined by an upper press roll within said pick-up felt loop and a lower suction press roll within said bottom felt loop to transfer the web from said pick-up felt to said bottom felt at the press nip, a looped press felt, and a reverse press having a horizontal nip defined by an upper suction roll within said press felt loop and a lower press roll within said bottom felt loop to transfer the web from said bottom felt to said press felt at the reverse press nip, said felts being so positioned that the web is maintained in a substantially horizontal plane during its travel from the wire through said presses.
  • a press section for removing wet web from a paper machine forming wire and pressing the same, comprising a looped pick-up felt, a suction pick-up roll within the loop of said pick-up felt directing the felt against the web on top of the wire for transferring the web to the underface of the pick-up felt, a looped bottom felt, a first press having a horizontal nip, defined by a bare upper press roll within said pick-up felt loop and a lower suction press roll within said bottom felt loop to transfer the Web from said pick-up felt to said bottom felt at the press nip, a looped press felt, a reverse press having a horizontal nip defined by an upper suction roll within said press felt loop and a bare lower ress roll within said bottom felt loop to transfer the web from said bottom felt to said press felt at the reverse press nip, said felts being so positioned that the web is maintained in a substantially horizontal plane during its travel from the wire through said presses,
  • a press section for removing a wet web from a paper machine forming wire and pressing the same, comprising a looped pick-up felt, means for transferring the web from the forming wire to said felt, an upper press roll and a suction roll therebeneath defining a suction press having a nip receiving said pick-up felt therethrough with a web conveyed thereby, said pick-up felt lapping the upper press roll, a press felt lapping the suction roll and trained through said suction press nip and receiving said Web from said pick-up felt at said suction press nip, a reverse suction press separate and apart from said suction press and having a nip receiving the press felt therethrough with said web conveyed thereby, and a transfer felt also trained through the nip of said reverse press for receiving said web from said press felt and for conveying said web therefrom.
  • a press section for removing a wet web from a paper machine forming wire and pressing the same, comprising a looped pick-up felt, a suction pick-up roll within the loop of said pick-up felt directing the felt against the web on top of the wire for transferring the web to the under-face of the pick-up felt, a looped bottom felt, a first press having a horizontal nip defined by a plain upper press roll within said pick-up felt loop and a lower suction press roll within said bottom felt loop to transfer the web from said pick-up felt to said bottom felt at the press nip, a looped press felt, and a reverse press having a horizontal nip defined by an upper suction roll within said press felt loop and a plain lower press roll within said bottom felt loop to transfer the web from said bottom felt to said press felt at the reverse press nip, said felts being so positioned that the web is maintained in a substantially horizontal plane during its travel from the wire through said presses.

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Description

May 8, 1956 L. HORNBOSTEL REVERSE PRESS ASSEMBLY Filed Sept. 20. 1950 [1 F527 far .5: 0V0 1566/1/50 $7'EL United States Patent 2,744,453 REVERSE PRESS ASSEMBLY Lloyd Hornbostel, Beloit, Wis., assignor to Beloit Iron Works, Beloit, Wis., a corporation of Wisconsin Application September 20, 1950, Serial No. 185,823 4 Claims. (Cl. 92-49) The present invention relates to a paper machine reverse press assembly and more particularly to a reverse press assembly for a paper making machine. wherein a single press felt is trained through the consecutive reverse press nips of a suction press assembly to convey a moist paper web therethrough.
The press assembly of the present invention contemplates generally the utilization of a pick-up felt trained about a suction pick-up roll for removing a moist paper web from a foraminous forming surface of the paper making machine forming part, such as a Fourdrinier wire. The pick-up felt is next trained through the press nip of a suction press to convey the moist web therethrough. This first press assembly includes a plain press roll and a suction press roll, the suction press roll being positioned within the loop of a continuous press felt so that the press felt is also trained through the press nip with the suction area of the press roll being effective to transfer the moist paper web to the press felt at the nip. The press felt is next trained through the nip of a reverse suction press including a plain press roll positioned with in the loop of the continuous press felt and a suction press roll positioned within the loop of a continuous second? press felt. The suction press roll of the second press is effective to transfer the moist paper web from the first press felt to the second press felt, so that the second press felt conveys the web to an additional suction press roll positioned within the loop of the second press felt and cooperating with a dryer machine part, such as a Yankee dryer drum, to form an additional press nip.
At the additional press nip, the moist paper web is transferred to the Yankee dryer drum or like dryer part for conveyance about the periphery of the dryer drum.
The present invention thus utilizes a single press felt for conveying a moist paper Web to a first suction press and through a second reverse suction press. The suction at the presses not only serves to de-water the moist paper web, but also to effectuate the transfer of the moist paper web through the entire press assembly, with the Web being supported at all times during its passage therethrough to eliminate the possibilities of web breakagedue to tension placed upon the Web during the pressing opera: tion.
It is, therefore, an important object of the present invention to provide an improved paper machine press section including a suction press, a reverse suction press, and a common felt trained through both the suction press and the reverse suction press nips in order that the moist paper web may be adequately supported by the felt throughout its entire travel through the press assembly.
Another important object of the present invention is to provide a press assembly for a paper making machine including a suction press and a reverse suction press together with felt carriers for conveying a moist paper web through each of the presses with the suction areas of the presses each being efiective to transfer the paper web through they assembly.
It is a further important object of the present invention to provide a reverse press assembly for a paper making machine including a suction press and a reverse suction press, the first suction press being effective .to transfer a moist paper web from a pick-up felt to a press felt common to each of the presses and the reverse pressbein'g effective to transfer the moist paper web from the 2,744,453 Patented .May 8, 1-956 common press felt to a transfer felt for conveyance to a paper making machine dryerpa'rt.
Still another important object of the present invention is to'provide a reverse suction press assembly wherein each transfer of a moist paper web through the entire press assembly is made'under' the influence of vacuum and the paper web is supported by a felt carrier during its entire passage through the press assembly, the felt carriers including a single felt bridging the press nips of the reverse press assembly.
Other and further important objects of the invention will be apparent to those skilled in the art from the following detailed description of the annexed sheet of drawings which, by way of a preferred example only, illustrates one embodiment of the invention.
On the drawing:
The single. figure of the drawing is a schematic representation of'a paper making machine reverse press assembly of the'present'invention.
As shownon the drawing:
In Figure 1, reference numeral 10 refers generally to a foraminous forming wire surface, such as a Fourdrinier forming Wire trained about a suction couch roll v uum suctionvarea- 18 of the roll 17, and the web W is held'upon the felt 15- after transfer'has been effected by a relatively low vacuum suction area 1 9, in which the degree of vacuum is controlled? by a butterfly control valve 20.
The pick-up. felt '15 is next trained through a suction press nip 122 defined by an upper plain press roll 23 located within the loop of the continuous pick-up felt 15' and a lowersuction press roll 24 having a suction area 25' located atsthe nip 22. The suction area 25 of the roll 24 is lapped by a lower first press felt 26 which is also trained; through the nip 22 and which receives the web W from the pick-up felt 15'. A clean transfer of the web W to the felt 26 ,is effected by the suction area 25 of the roll 24, WhlChi'SllCtlOIl' area also serves to remove residual moisture squeezed from the Web by the mechanical and differential fluid pressure exerted at the press nip 22.
The press felt ,26 is gathered into contact with the web and the roll 24' by means of a plurality of guide rolls 27 and a conventional arcuate save-all pan 28 is provided about the ,roll- 24 to receive Water centrifugally flung from the perforated periphery of a suction roll 24.
Following passage of the felt 26 through the nip 22 and the transfer of. the web W to the felt 26, the felt and web are. next trained through the nip 30 of a reverse suction press defined by a lower plain press roll 31 located within the loop- .of the endless press felt 26 in spaced relation to and in substantially horizontal alignment with the suction press roll 24; An arcuate save-all pan 32 is also provided'for the roll 31.
The reverse. suction nip 30 is defined by the roll 31' in cooperation-with asuperimposed suctionpress roll 33 having an arcuate suction area 35 at the mp 30. A transfer felt, or second press felt, 36 is lapped about the roll- 33 for passage through the nip 30 in lapping relation with the suction area .35 of the suction roll 33. The transfer felt 36'receives the web W from the press felt 26, and the' felt36 is guided in a substantially horizontal plane from the nip 30 for-passage about an addi t-ional suction roll 31. The .l'eulrn reach of the transfer felt) 36- to the; suction roll 33 is. accomplished by passage of the felt about felt guide rolls 38 and an arcuate saveall pan 39 is provided about the roll 33 within the loop of the felt 36.
The additional roll 37 is provided with an arcuate suction area 40 lapped by the felt 36, and a save-all pan 41 is provided for the roll 37. The roll 37 is mounted in press nip relation to an adjacent dryer drum 42, such as a Yankee dryer, forming a portion of the dryer part of the paper making machine. Transfer of the web W to the Yankee dryer drum 42 is accomplished at the nip 43 therebetween, and the suction area 40 of the roll 37 is provided with a butterfly vacuum control valve 44 for regulating the degree of vacuum within the suction area so as to prevent interference with web transfer while accommodating removal of residual moisture squeezed from the web W at the nip.
The web W travels about the periphery of the Yankee dryer drum 42 and is removed therefrom by a doctor blade 45.
The operation of the reverse press assembly of the present invention will be obvious to those skilled in the art. It will be seen that the web W is removed from the wire by means of the pick-up felt trained about the pick-up roll 17. The suction area 18 of the roll 17 will be efiective to remove the web W from the wire, with the lesser degree of vacuum within the suction area 19, as controlled by the valve 20, retaining the web upon the pick-up felt after transfer has been effected.
The suction area 25 of the roll 24 causes transfer of the web W to the press felt 26, and at the same time this suction area 25 removes residual moisture squeezed from the Web at the nip 22. The press felt 26 bridges the gap between the suction press nip 22 and the reverse suction press nip 30, so that the web is at all times supported by a felt.
Transfer of the web from the press felt 26 to the transfer felt 36 is caused by the suction area 35 of the roll 33, and the felt 36 serves to transfer the web to the dryer drum 42, while the additional suction roll 37 gives an additional pressing action at the drier drum.
It will be seen that the suction areas 25 and 35 exert differential fiuid pressures upon opposing sides of the Webb W to yield most advantageous and efficient water removal from the web. The efficient utilization of the three felts 15, 26 and 36 results in a compact, inexpensive reverse press assembly wherein the Web is transferred at all times under the influence of vacuum, the web is at all times supported by a felt carrier, and a single press felt is utilized for conveying the web through both the suction press nip 22 and the reverse suction press nip 30.
It will be understood that modifications and variations may be effected without departing from the scope of the novel concepts of the present invention.
1 claim as my invention:
1. In a paper machine, a press section for removing wet web from a paper machine forming wire and pressing the same, comprising a looped pick-up felt, a suction pick-up roll within the loop of said pick-up felt directing the felt against the web on top of the wire for transferring the web to the underface of the pick-up felt, a looped bottom felt, a first press having a horizontal nip defined by an upper press roll within said pick-up felt loop and a lower suction press roll within said bottom felt loop to transfer the web from said pick-up felt to said bottom felt at the press nip, a looped press felt, and a reverse press having a horizontal nip defined by an upper suction roll within said press felt loop and a lower press roll within said bottom felt loop to transfer the web from said bottom felt to said press felt at the reverse press nip, said felts being so positioned that the web is maintained in a substantially horizontal plane during its travel from the wire through said presses.
2. In a paper machine, a press section for removing wet web from a paper machine forming wire and pressing the same, comprising a looped pick-up felt, a suction pick-up roll within the loop of said pick-up felt directing the felt against the web on top of the wire for transferring the web to the underface of the pick-up felt, a looped bottom felt, a first press having a horizontal nip, defined by a bare upper press roll within said pick-up felt loop and a lower suction press roll within said bottom felt loop to transfer the Web from said pick-up felt to said bottom felt at the press nip, a looped press felt, a reverse press having a horizontal nip defined by an upper suction roll within said press felt loop and a bare lower ress roll within said bottom felt loop to transfer the web from said bottom felt to said press felt at the reverse press nip, said felts being so positioned that the web is maintained in a substantially horizontal plane during its travel from the wire through said presses, a second suction roll disposed Within the loop of said press felt separate and apart from said reverse press suction roll and having its suction area lapped by said press felt, and a dryer drum cooperating with said second suction roll to define a suction press nip receiving said press felt for transferring the web from the press felt to said dryer drum, said felts being so positioned that the web is maintained in a substantially horizontal plane during its travel from the wire to said second suction roll.
3. In a paper machine, a press section for removing a wet web from a paper machine forming wire and pressing the same, comprising a looped pick-up felt, means for transferring the web from the forming wire to said felt, an upper press roll and a suction roll therebeneath defining a suction press having a nip receiving said pick-up felt therethrough with a web conveyed thereby, said pick-up felt lapping the upper press roll, a press felt lapping the suction roll and trained through said suction press nip and receiving said Web from said pick-up felt at said suction press nip, a reverse suction press separate and apart from said suction press and having a nip receiving the press felt therethrough with said web conveyed thereby, and a transfer felt also trained through the nip of said reverse press for receiving said web from said press felt and for conveying said web therefrom.
4. In a paper machine, a press section for removing a wet web from a paper machine forming wire and pressing the same, comprising a looped pick-up felt, a suction pick-up roll within the loop of said pick-up felt directing the felt against the web on top of the wire for transferring the web to the under-face of the pick-up felt, a looped bottom felt, a first press having a horizontal nip defined by a plain upper press roll within said pick-up felt loop and a lower suction press roll within said bottom felt loop to transfer the web from said pick-up felt to said bottom felt at the press nip, a looped press felt, and a reverse press having a horizontal nip defined by an upper suction roll within said press felt loop and a plain lower press roll within said bottom felt loop to transfer the web from said bottom felt to said press felt at the reverse press nip, said felts being so positioned that the web is maintained in a substantially horizontal plane during its travel from the wire through said presses.
References Cited in the file of this patent UNITED STATES PATENTS 1,568,363 Catheart Jan. 5, 1926 1,858,546 Farnesworth May 17, 1932 2,005,929 Berry May 25, 1935 2,186,171 Millspaugh Jan. 9, 1940 2,204,426 Milispaugh M June 11, 1940 2,340,103 Berry Jan. 25, 1944 2,415,350 Hornbostel Feb. 4, 1947 FORElGN PATENTS 236,021 Germany Feb. 25, 1910 431,408 Germany June 13, 1924 458,759 Great Britain 2. Dec. 21, 1936 468,188 Great Britain Mar. 23, 1937
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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2888378A (en) * 1954-11-05 1959-05-26 Milton J Maguire Paper making machine
US2959222A (en) * 1957-06-05 1960-11-08 Beloit Iron Works Pickup and press section
DE1159753B (en) * 1957-10-18 1963-12-19 Beloit Iron Works Drive for the wire section of a Fourdrinier paper machine
US4420372A (en) * 1981-11-16 1983-12-13 Crown Zellerbach Corporation High bulk papermaking system
US4421600A (en) * 1981-07-06 1983-12-20 Crown Zellerbach Corporation Tri-nip papermaking system
US4483745A (en) * 1982-09-29 1984-11-20 Beloit Corporation Method and apparatus of sheet transfer using a nonporous smooth surfaced belt

Citations (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE236021C (en) *
US1568363A (en) * 1924-05-01 1926-01-05 Edwin S Crabtree Paper-making machine
DE431408C (en) * 1924-06-13 1926-07-07 Vorm Wagner & Co Maschf Ag Fourdrinier paper machine for the production of thin and thick papers
US1858546A (en) * 1928-12-05 1932-05-17 Paper & Textile Machinery Comp Yankee fourdrinier machine
US2005929A (en) * 1932-08-18 1935-06-25 Beloit Iron Works Paper making apparatus and process
GB458759A (en) * 1935-06-21 1936-12-21 William Hulse Millspaugh Improvements in or relating to paper making machines
GB468188A (en) * 1935-11-26 1937-06-30 Chem Ind Basel Manufacture of oxybenzofluorenones
US2186171A (en) * 1935-06-21 1940-01-09 Sandusky Foundry And Machine C Paper making machine
US2204426A (en) * 1935-06-21 1940-06-11 Sandusky Foundry And Machine C Papermaking machine
US2340103A (en) * 1940-12-09 1944-01-25 Beloit Iron Works Apparatus for making tissue type paper
US2415350A (en) * 1944-03-13 1947-02-04 Beloit Iron Works Press roll arrangement for papermaking machines

Patent Citations (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE236021C (en) *
US1568363A (en) * 1924-05-01 1926-01-05 Edwin S Crabtree Paper-making machine
DE431408C (en) * 1924-06-13 1926-07-07 Vorm Wagner & Co Maschf Ag Fourdrinier paper machine for the production of thin and thick papers
US1858546A (en) * 1928-12-05 1932-05-17 Paper & Textile Machinery Comp Yankee fourdrinier machine
US2005929A (en) * 1932-08-18 1935-06-25 Beloit Iron Works Paper making apparatus and process
GB458759A (en) * 1935-06-21 1936-12-21 William Hulse Millspaugh Improvements in or relating to paper making machines
US2186171A (en) * 1935-06-21 1940-01-09 Sandusky Foundry And Machine C Paper making machine
US2204426A (en) * 1935-06-21 1940-06-11 Sandusky Foundry And Machine C Papermaking machine
GB468188A (en) * 1935-11-26 1937-06-30 Chem Ind Basel Manufacture of oxybenzofluorenones
US2340103A (en) * 1940-12-09 1944-01-25 Beloit Iron Works Apparatus for making tissue type paper
US2415350A (en) * 1944-03-13 1947-02-04 Beloit Iron Works Press roll arrangement for papermaking machines

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2888378A (en) * 1954-11-05 1959-05-26 Milton J Maguire Paper making machine
US2959222A (en) * 1957-06-05 1960-11-08 Beloit Iron Works Pickup and press section
DE1159753B (en) * 1957-10-18 1963-12-19 Beloit Iron Works Drive for the wire section of a Fourdrinier paper machine
US4421600A (en) * 1981-07-06 1983-12-20 Crown Zellerbach Corporation Tri-nip papermaking system
US4420372A (en) * 1981-11-16 1983-12-13 Crown Zellerbach Corporation High bulk papermaking system
US4483745A (en) * 1982-09-29 1984-11-20 Beloit Corporation Method and apparatus of sheet transfer using a nonporous smooth surfaced belt

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