US1642495A

US1642495A - Process for making paper

Info

Publication number: US1642495A
Application number: US692947A
Authority: US
Inventors: Heany John Allen
Original assignee: WORLD BESTOS CORP
Current assignee: WORLD BESTOS Corp
Priority date: 1924-02-15
Filing date: 1924-02-15
Publication date: 1927-09-13
Anticipated expiration: 1944-09-13

Description

Sept. 13, 192-7. J A. HEANY 1,542,495

PROCESS FOR MAKING PAPER Filed Feb. 15, 1924 2 Sheets-Sheet 1 Tfg. .Z. 3

: 5 I 16 IN VENTOR 9 4 v 23 3 John /7//en Had/y 31 32 9 25 27 ATTORNEY p 1927 J. A. HEANY PROCESS FOR MAKING PAPER INVENTOR John fll/en Hea ATTORNEY Patented Sept. 13, 1927.

UNITED STATES JOHN ALLEN HEANY, OF NEW HAVEN, CONNECTICUT, ASSIG-NOR TO WORLD BESTOS CORPORATION, OF PATERSON, NEW JERSEY, A CORPORATION OF DELAWARE.

PROCESS FOR ,MAKING PAPER.

Application filed February 15, 1924. Serial No. 692,947.

This invention relates to a process for making paper. The invention relates more particularly to a process for manufacturing paper out of asbestos fibre. The invention also relates to a process as carried out by a preferred type of beater having utilization in loosening the fibrous structure of the paper stock.

In the manufacture of paper, especially where asbestos fibre is employed, it has been customary to work the basic pulp in the condition of paper fibre mixed with water in a beater machine, subsequently transferring the pulp to the paper machine in which the fibre is deposited on travelling belts to form a sheet and subsequently compressed under pressure rolls and thoroughly dried. One disadvantage of this process, as heretofore employed, hasbeen that the fibre as present in the finished producthas insufficient looseness, the paper being somewhat harsh and poor in absorptive properties. This defect has been noteworthy in connection with paer which has been subjected to impregnation, the close hard fibres tending to prevent proper absorption of the impregnating fluid. It has been proposed to accentuate the beating effect in the beating machine in order to loosen the fibres, but this action is undesirable inasmuch as the intensified beating, especially where employed with asbestos fibre, tends to break up the fibre instead of loosening it, and since it is desirable in paper structure to have the fibre as long as is possible, this modification of the rocess as heretofore employed has been unsatisfactory.

One of the important objects of my inven tion, therefore, is to provide a method carried out in a paper making machine by which the fibre stock entering into the composition of the paper is sufiiciently loosened to permit easy impregnation or saturation without at the same time breaking the fibrous structure. Another important object is to provide means whereby a mineral fibre, such as asbestos, is worked so that the resultant paper product is smooth and flexible and absorbent. Specifically, it is an object of the invention to provide an improved beater machine in which the fibres entering into the pulp are loosened without masceration. Further objects, such as relate to details and specific features of the process involved will become apparent on consideration of the description and drawings containing an embodiment of the invention which may be preferred, hereinafter set forth.

Generally stated, my invention involves the use in addition to the beater of the beating machine, of a plurality of compressor rollers, or devices having similar functions, through which the pulp is passed and then passed to the paper machine, the deposition of the same on carrying belts and finally the subjection of the sheet of matted material to a series of compressing and drying steps. A feature of the invention also is the employment of a beater drum which does not tear or break the pulp fibre as it passes beneath the same, this result being secured by mechanism for adjusting the elevation of the drum relative to the vat base.

Referring to the drawings:

Fig. 1 is a plan view of the beater machine;

Fig. 2 is a sectional elevation of the same taken on lines 2-2 of Fig. 1;

Fig. 3 is a view showing the drive mechanism and beater drum taken on lines 33 of Fig. 1;

Fig; 4: is a plan view of the base of the beater beneath the beater drum;

Fig. 5 is a detail view of the beater drum and the mechanism connected thereto;

Fig. 6 is a diagrammatic view showing the paper machine in elevation; and

Fig. 7 is a diagrammatic view of parts of the paper machine in continuation of Fig. 6.

Referring to Fig. 1 of the drawing, there isshown in plan the beater machine 10 of a modified rectangular shape having the walls 11 curved at the ends of the vat 12, as shown. In one end of the vat, the end pipe 13 is positioned and the outlet pipe 14., shown in Fig. 2, and covered by a screen 15 is placed at the other end of the vat, said outlet 14 leading to the storage tank. hereinafter indicated.

In the side walls of the beater are placed bearings adapted to hold the beater drum, these bearings shown particularly in Figs. 1, 2, 3 and 5, include side support blocks 16, carrying retaining plates 17 in which the beater shaft 18 is rotatably mounted. The ends of th block 16 have screw-threaded engagement with upwardly projecting pins 19 mounted on the base plate 20 of the beater, the lower ends of said pins terminating in

bevelled gears

21, 22, 23 and 24. The

gears

21, 23 and

gears

22 and 24 are connected by

cross shafts

25 and 26, the same terminating in

bevelled gears

27, 28, 29 and 30, cooperating with the corresponding horizontal

bevelled gears

21, 22, 23 and 24, attached to the vertical pins 19. In addition, the stub shaft 31 is positioned on one side of the beater 10 having end bevelled

gears

32 and 33 in connection with the

vertical gears

29 and 30. One of the pins 19 is extended bv an integral rod 34, terminating in a hand wheel 35 and it is apparent that rotation of the operator of the hand wheel 35 will cause a simultaneous rotation of the various bevelled gears and the movement of the screw thrcaded pins 19, thus causing the vertical movement of the bearing blocks 16 upon which the beater drum shaft 18 is mounted.

The heater shaft 18 carries adjacent one end, the beater drum 40, this drum consisting of a cylindrical casing 41, upon which are mounted a plurality of axially extending plates 42. The plates 42 are relatively shallow in radial depth so that in operation upon the pulpy contents of the vat 12, the pulp is limited in its movement between the plates 42 of the drum. The drum 40 extends about halfway of the width of the vat 12 and terminates adjacent the dividing plate 43, extending axially in the vat and dividing the same into two compartments. One end of the shaft 18 of the beater drum terminates in a power pullev 44.

It is apparent from Fig. 1, that the partition 43 divides the vat in such a way that a channel is formed in which the pulpy stock may have movement, the material passing under the beater drum 40 and around on the other side of the vat and again under the beater drum, this movement being caused by the rotation of the drum which gives movement to the massed material in the vat. In connection with the beater drum, there are guide elements provided as indicated particularly in Fig. 2 in which the pulp is guided for a portion of the periphery of the drum. This guide is indicated by the curvilinear plate 45, the inner surface of which is positioned adjacent the outer ends of the beater drum blade 42. The lower end of the plate 45 is extended beneath the drum as at 46 and is formed with a plurality of corrugations 47, the same being in the shape of a shallow V, the apex of which is at the center of the channel and pointed in the direction of movement of the material, i. e., toward the curved plate 45. The end of the plate 46 is curved as at 48 to guide the material toward the beater drum 40. Beyond the curved plate 45 there are positioned

rollers

49 and 50 extending across the channel containing the beater drum 40 and parallel with said drum. The

rollers

49 and 50 are mounted on shafts and 91 mounted in the channel walls. The shaft 90 carries a pulley 92, and a power belt 93 forms a driving connection with a pulley 94 on the beater drum shaft 18. The plate 45 is extended partially over the roller 49 so that the pulp in its movement under the drum is forced onto the roller 49 and thence between the

rollers

49 and 50, the pulp then entering the drum channel. Splash preventing aprons are provided as at 51 and 52 on either side of the beater drum to prevent escape of the liquid within the vat.

Considering the operation of the beater mechanism as described, the raw material such as asbestos fibre is placed in the vat 12 with a liquid as water to give the requisite plasticity to the pulp and permitting ease in working the same. In the case of asbestos pulp, it is ordinarily desirable to add in addition to water, substances such as lime, starch and caustic, the object of the lime being to combine with the slimy material of the pulp, thereby giving the same sufiicient roughness and adherence to be handled easily with the various steps of the process, the object of the starch being to furnish the requisite cohesion with the paper fabric and the purpose of the caustic being to disorganize the material binder between the asbestos fibres. Power is then applied to the pulley 44 and the drum 4O driven in such a direction as to cause movement of the pulp coincident with that of the arrow in Fig. 1, and as indicated by the arrow in Fig. 2. This rotation causes the pulp to travel in the beater drum over the corrugated base plate 46 up the curved wall 45 intermediate said roll and the blades 42 of the drum and into the slot between the

rollers

49 and 50 adjacent the edge of the plate 45. By means of the hand wheel, 35, the operator adjusts the drum 40 so that a sufficient distance is secured between the

plate

45 and 46 and the drum as not to mascerate the asbestos pulp while at the same time breaking down the various lumps of fibrous stock and moving the material up the inclined surface of the plate 45. The adjustment of the drum 40 is also such as to provide sufficient material to fill the opening between the

rollers

49 and 50. The

rollers

49 and ,50 are also adjustable and power driven and act as squeeze rolls to force out the liquid in the pulp and at the same time by this pressure loosen the bonds -between the various fibrous elements making up the asbestos stock without at the same time breaking the fibres. The compressed stock is then passed into the vat and enters the current of material passing around the channel to be again operated upon by the drum 1 40 and

rollers

49 and 50. This combined squeezing and beating operation is continued until the material is in condition to be passed into the paper machine.

From the beater the paper pulp is led by the pipe 14 to the" storage vat and thence to the paper machine 61 as needed. The paper machine consists in its essential elements of the vat 62 having a pluralit of transverse partitions 63, extending rom the top of the vat to the point displaced from the adjacent base of the vat.. In the compartments formed by the partitions 63 are placed

hollow drums

64, 65 and 66, each of which is rotatable on shafts mounted on the side wall of the vat 62. The various drums or moulds are preferably formed with screen walls and means are provided such for example as a force pump, not shown, by which the pulp bearing liquid is drawn toward the interior of the drum, thus causing the deposit of the pulp upon the exterior surface of the screen. The drums, in rotation, carry the fibrous material upwardly into contact with the travelling belt 67 made of felt or similar, material to which. the fibrous stock adheres, each drum adding this deposit of matted pnlpy material, forming a matted sheet 100 of loose fibre. The sheet,

' thus formed, is then carried by the belt supported 'by the

various rollers

68 and 69 into juxtaposition with the calendering apparatus 70.

As shown in Fig. 6, the belt 67 is extended from the rollers 69 about the roller 71 through guide rolls 7 2 back to the screened

drum

64, 65 and 66. A cleaner roller 73 is also provided having blades. 74 in order to remove any of the fibrous material remaining on the belt surface subsequent to movement over the roller 71. The. use of an intermediary tank 101 is also indicated between the storage tank 60 and paper machine vat 62, said intermediary tank having an overflow strip 102 on one side over which the pulp flows into the tank 62.

The calendering apparatus 7 0 is shown as comprisinv two

vertical rollers

75 and 76, displaced rolls 77 and 78 above and in contact with each other, the pressure rolls being provided with appropriate pressure mechanism including a threaded rod 79 and wheel 80. belt 81 is placed about the

rollers

75 and 76 and the roll 78 and the sheet of matted fibre is guided from the roller 69 to the belt 81 as it winds about the roller 75 and then carried intermediate the pressure rolls 77 and 78. This operation squeezes the water out of the fabric and brings it approximately to size and-at the same time compacts the fibrous structure to a strip indicated at 103 and thus permits greater ease in handling. From the calendering unit 70, the sheet of stock is carried into a drying oven in which may be positioneda plurality of rollers 82, the number of which varying with the size .of the oven, over which the sheet of fibrous stock is wound.

After the movement of the material from each other and' two pressure through the drying oven, the sheet is again subjected to a pressure operation by means of the calendering unit 86, having rollers 86 and 87 and pressure mechanism 88 similar in all respects to that of the calender 70. The function of the second pressure operationis to further size the sheet of fabricand compact and smooth out the material into final form as a sheet 104. On emergence from the calender 85, the paper stock is wound over supporting rollers 89 into the 7 roll 90, this completing the final step in the paper making process.

In the calendering operation, it is desirable to have considerable pressure approaching one thousand pounds in value so that a high degree of compactness is obtained and all possible moisture removed from the fab ric. Also instead of utilizing an oven as suggested, the fabric may be passed over a series of rollers in ,which steam is passed at about a pressure of20 pounds to dry out the material. Attention is directed also to the base corrugations 47 of the beater which are so designed as to guide the material toward the center of the channel under the beater drum and thus facilitate the passage of the paper pulp. It is further noted that Y the number of blades 42 on the beater drum is such that a continuous impact is imparted to the pulp and also a continuous movement thereof which carries the same into the

squeeze rollers

49 and 50. In addition to the loosening action of the beater with the succession of impacts on the pulp passing under the drum and' the successive squeezings of the pulp in its circuiting about the vat, attention. is also directed to the effect of the calendering operation as tending to loosen the fibrous structure of the pulp. By means of these various steps as indicated, the paper obtained. possesses fibre of high absorptive qualities which permit ready impregnation and which imparts high flexibility to the product.v Paper made by the process described is readily usable 1n connection with the making of yarns to be woven into fabric such as brakelining or friction clutches'or various other fabrics in which resistance to frictional wear and high temperature is desirable. v

The invention has been described as a preferred embodiment of the mechanism and the preferred method of treating the mate'- rialbut it is understood that such variations may be made as come within the scope of the claims hereunto appended.

Having thus described my invention, what I claim is: 0

1. A process of making asbestos paper from asbestos containing fibrous stock which comprises in mixing the stock with liquid to form-a pulp, successively and repeatedly beating the pulp and subjecting it to the action of pressure rolls, depositing the pulp on a carrier in the form of a continuous sheet, subjecting the sheeted pulp to a pressure operation to remove excess moisture and compact the material, drying the material, and finally subjecting the material to a second pressure operation to size and compact the same.

2. A process of loosening fibre of fibrous mineral material Which comprises mixing the fibre with a liquid to form a pulp, and subjecting the material in succession to beating action, a compression action, and a soaking action.

3. The method of loosening the fibres of asbestos which comprises forming a pulp of the asbestos with water, and repeatedly subjccting the pulp to a series of impacts followed by compression.

4. The method of loosening the fibres of asbestos Which comprises forming a pulp of the asbestos with Water, repeatedly subjecting the pulp to a series of impacts followed by compression between compression rolls, and a period of soaking in Water.

5. A method of loosening the fibres of asbestos which comprises in mixing the asbestos with solution of caustic soda in Water, and subsequently beating and compressing the material.

6. A step in the process of making paper from asbestos Which comprises mixlng the asbestos with a solution of lime, caustic and starch in Water, and subjecting the asbestos material to a combined beating and compressing operation to form a pulp.

7. A step in the process of making paper from asbestos which comprises mixing the asbestos with a solution of lime, caustic and starch in Water, and subjecting the mixed material to a combined beating, compressing and soaking operation.

8. A. process of loosening fibre of asbestos material, which comprises mixing the fibre with a liquid to form a pulp; subjecting the material in succession to beating action; a compression action; and a soakmg action; compressing the asbestos material in sheet form; drying the sheet asbestos material; and finally subjecting the asbestos material to a second pressure operation to size and compact the same.

In testimony whereof, I aflix my signature.

JOHN ALLEN HEANY.