A WEB OF PAPER

TECHNICAL FIELD

This invention relates to an apparatus and method for cutting a travelling web of paper being wound on one spool and transferring the web to an empty spool while the web is travelling.

BACKGROUND ART

It is a general practice in the paper industry to produce a continuous sheet or web of paper which is wound onto large spools. In order to have a continuous operation it is, of course, necessary to have a system for instanta¬ neously switching from winding the web of paper onto a full roll to an empty roll, particularly at modern speeds of paper production. In U.S. Patent 2,461,246 there is shown a method of feeding a tape onto the rotating empty roll core and caus¬ ing it to be spirally wrapped on that core as it stretches tight across the travelling web of paper and cuts the paper, with the cut edge being led onto the empty roll supported by the cutting tape. Subsequent improvements have dealt with methods of stringing the tape for cutting and feeding, and the use of various types of tapes, as shown for example in U.S. Patent 3,599,888. A more recent improvement is found in U.S. Patent 4,414,258 where there is described a tape made of repulpable paper woven into a tape which did not interfere with the paper making process since the paper wound adjacent the roll is waste and is recycled.

It is an object of this invention to provide an im¬ proved apparatus for cutting a paper web and transferring the cut portion to an empty spool. It is another object to pro¬ vide such a system employing an improved repulpable paper tape. Still another object is to provide a substantially automatic feeding apparatus for introducing the tape to the empty spool. Other objects will appear from the more detailed

desσription which follows.

BRIEF DESCRIPTION OF THE INVENTION

This invention relates to an apparatus for cutting a travelling web of paper being wound on a first spool and transferring that travelling web onto an empty spool by at¬ taching a cutting tape to the empty spool, the apparatus characterized by_

(1) means for supplying a length of repulpable paper fiber stiff tape;

(2) an elongated guideway with an elongated open slot facing upwardly beneath said travelling web and having opposite open ends adjacent the side edges of said travelling web, the guideway receiving the tape delivered slidingly into one open end and exiting out of the other open end; and

(3) a brake means frictionally engaging the tape. The apparatus also includes a dispenser having a continuous length of cutting tape wound on a rotatable drum and being thin and stiff and being formed of a plurality Of lengthwise parallel strands of twisted repulpable paper fibers laid side-by-side and bonded to each other by a water- soluble adhesive and being one strand in thickness. A cutter is provided between the brake means and the drum for cutting laterally across the tape to partially sever the strands. The brake means is located between the guideway and drum and in¬ cludes an underneath supporting surface and an upper pressure surface adjustable to provide selective frictional resistance to the passage of the tape therebetween. The tape completely severs upon the passage of the partially severed strands be¬ tween the brake means and the ends of the guideway as the tape is being spirally wound about the empty spool.

This invention also relates to an improved method for cutting a travelling web of paper being wound on a spool and transferring the web after cutting to an empty spool, the method including a cutting tape attachable to the empty spool, the tape automatically being wound spirally about the empty spool and cutting the web of paper, and winding the cut

OMPI

portion of the paper web onto the empty spool; the improve¬ ment comprises:

(1) feeding the free end of a stiff paper tape into the near end of an elongated guideway beneath the travelling web and extending beyond both ends of the empty spool;

(2) extending the free end of the tape from the far end of the guideway;

(3) adhering the free end to the edge of the empty spool;

(4) partially cutting laterally through the tape adjacent the near end of the guideway; and

(5) applying frictional resistance to the tape between the cut and the guideway to cause the partially cut tape to become completely severed by the pulling of the tape caused by winding thereof on the empty roll.

BRIEF DESCRIPTION OF THE DRAWINGS

The novel features believed to be characteristic of this invention are set forth with particularity in the ap¬ pended claims. The invention itself, however, both as to its organization and method of operation, together with further objects and advantages thereof, may best be understood by reference to the following description taken in connection with the accompanying drawings in which:

FIG. 1 is a perspective view of the system of rollers employed in the paper industry to wind the paper web onto rolls, and the present apparatus used to cut the web and trans¬ fer the cut edge to an empty spool in accord with this inven¬ tion.

FIG. 2 is an enlarged side elevational view of a por¬ tion of the apparatus of FIG. 1 partly cut away for clarity of illustration.

FIG. 3 is a front elevational view of the apparatus of FIG. 2.

FIG. 4 is a top plan view of the apparatus of FIG. 2.

FIG. 5 is a front elevational view of the tape cut¬ ting means of this invention.

TOSϊ

FIG. 6 is a side elevational view of the tape cut¬ ting means of FIG. 5.

FIG. 7 is a cross-sectional view of the brake means taken along line 7, 8—'7, 8 of FIG. 4.

FIG. 8 is a cross-sectional view of an alternate embodiment of the brake means, showing the inoperable posi¬ tion in broken lines, and taken along line 7, 8—7, 8 of ^' FIG.4.

FIG. 9 is a partial isometric view of the tape supply drum of this invention.

FIG. 10 is a partial cross-sectional view taken along line 10—10 of FIG. 9.

FIG. 11 is an isometric view of another embodiment of the apparatus in accord with this invention.

FIG. 12 is a top plan view of the apparatus of FIG. 11.

FIG. 13 is an isometric view of another embodiment of the guideway portion of this invention.

FIG. 14 is a top plan view of the guideway of FIG. 13.

DETAILED DESCRIPTION AND BEST MODE OF THE INVENTION

The general features of this invention are best seen and understood by reference to FIG. 1 which shows some of the equipment employed in a paper manufacturing plant to wind up the manufactured paper on rolls for storage and use elsewhere. A continuous web of paper 20 travels at a relatively rapid rate of speed to a combination of spools upon which the paper is rolled. Paper web 20 advances toward tension roll 102, mounted in journals on supports 47, leading web 20 over driv¬ ing roll 22 and winding about spool 21 turning in the direc¬ tion of arrow 25. Driving roll 22 turns in the direction of arrow 26 and is pressed against the paper roll on spool 21 causing it to rotate in the indicated direction. When spool 21 has been filled to the desired capacity with paper from web 20, it is necessary to cut web 20 laterally, transfer

OMPI

the cut edge to an empty spool, and start the web winding on that spool to eventually produce another filled spool, such as spool 21. Empty spool 23 is positioned vertically above the location shown in FIG. 1 until it is ready to accept paper from web 20 and begin winding it up. In order to cause empty spool 23 to begin rotating and to accept the cut edge of web 20, it is necessary to lower spool 23 until it con¬ tacts driving roll 22, as shown in FIG. 1, and then to in¬ troduce the cut edge of web 20 into the nip 52 between empty spool 23 and driving roll 22 and to cause a transfer of the paper web thereto.

The apparatus of this invention is generally indi¬ cated by reference numeral 15 which is a means in the form of a dispenser 16 for introducing a tape to the far edge of empty spool 23 and causing that tape to wrap around spool 23 in a spiral fashion, and, in so doing, cut web 20 and cause the cut edge to be introduced onto spool 23 and to transfer the cut web 20 to become wrapped about spool 23. A supply of cutting tape 24 is preferably maintained on a removable drum 37 in a housing 40 which also serves to support a cutting means 38 which, at the appropriate time, cuts tape 24 from the large supply on drum 37. It will be appreciated that only a finite length of tape, longer than the width of web 20, is needed to cut across web 20 laterally and to cause the cut edge to begin wrapping itself upon empty spool 23, and thus at the appropriate place tape 24 is cut and further tape is not needed until spool 23 becomes filled with paper and must be replaced by another empty spool. Tape 24 passes through cutting means 38 and into a guideway 28 propelled by a driving means operated by a hand crank 43 to cause the free end of tape 24 to move completely across the width of web 20 underneath that web in guideway 28 until it reaches the far end 50 where the free end 51 of tape 24 is made available to be inserted into nip 52 between spool 23 and driving roll 22. Preferably, an adhesive is applied to the tape 24 at free end 51 so that when it is introduced into nip 52 it will adhere to the surface of empty spool 23. A frictional resistance is

then applied to the tape adjacent near end 49 to cause the tape to spiral across the length of empty spool 23 and cut through web 20 as it does so and causes a transference of the web 20 onto empty roll 23.

In FIGS. 2, 3, and 4 there are shown some of the details of the apparatus in accord with this invention. Drum 37 holds a coiled supply of a continuous, rolled up length of tape 24 supported on removable and refillable drum 37. Drum 37 is more clearly shown in FIGS. 9 and 10 and includes two telescoping sections 17 and 18, section 18 including flange 87 connected to outer cylindrical body 89 and section 17 in¬ cluding flange 88 connected to inner smaller cylindrical body 91. When sections 17 and 18 are telescoped together, as shown in FIG. 9, a flanged drum is formed having a cylindri¬ cal body upon which the coil of tape 24 is supported. Tape 24 is a stiff paper tape, hereinafter more fully described, and the inner end 93 of the coil of tape is preferably doubled back onto itself and attached by any suitable means. The cylindrical bodies 89 and 91 include respective transverse slots 90 and 92 through which the portion of the tape adja¬ cent the doubled back end portion 93 may slide edgewise into slot 90 of outer cylindrical body 89 and the inner cylindrical body 91 may be slipped within cylindrical body 89 and slot 92 will slide on either side of doubled back end portion 93, slots 90 and 92 being aligned when cylindrical bodies 89 and 91 are telescoped together. This completes the assembly of drum 37 and permits the unwinding of tape 24 from the outer free end of the tape coil.

Referring again to FIGS. 2-4, housing 40 comprises two parallel plates 110 and 111 forming walls separated by spacer bolts 59 and held in place by spacer bar 58. Drum 37 is mounted in housing 40 to be rotatable about shaft 56 through drum 37 by means of journals 57. Each journal 57 is a rectangular block having a central hole 109 to receive shaft 56 and having two of its opposite sides fashioned with elongated slots 95 that are substantially the same thickness as the plate walls 110 and 111 of housing 40. An appropriate

OMPI

notch 94 is cut at an angle into the plate walls 110 and 111 of housing 40, and these notches 94 are of a size to mate with slots 95 so as to receive slidable journals 57 thereinto. It will be appreciated that this arrangement permits a rapid removal of drum 37 when it is necessary to fill it with an¬ other roll of tape 24. In order to provide some protection against dirt and moisture, and also to provide a resistance to the free rotation of drum 37, a weighted cover 60-63 is provided to fit over the roll of tape 24 supported on drum 37. This cover 60-63 includes a rigid metal plate 61 attached to housing 40 by a hinge 60 and a fabric, e.g., felt, canvas or the like, attached to metal plate 61 with the opposite end of fabric 62 having attached thereto a small weight 63 to main¬ tain fabric portion 62 in place draped over the top of the roll of tape 24 in drum 37. The fabric portion 62 will pro¬ vide sufficient frictional resistance to prevent drum 37 from spinning too easily and thereby unwinding more of tape 24 from drum 37 than is needed at any one time.

Tape 24 leaving drum 37 is directed through an in¬ verted U-bolt initial guide 103 attached to the support 104 to cause tape 24 to become centered in the main guideway 75 located before the cutting means 38. It will be appreciated that as tape 24 unwinds from drum 37 it will come from differ¬ ent directions off drum 37 as it approaches guide 103 which initially guides the tape toward the main guideway 75 to cause an accurate cut therethrough. Tape 24 passes through cutting means 38 which is manually operated to cut through the tape at this location when desired as hereinafter more fully de¬ scribed. Tape 24 passes beyond cutting means 38 around idler roll 50 and thence is directed over drive roll 41 into the end of guideway 28. Idler roll 55 and idler roll 50 are both flanged rolls to accommodate the tape thickness and to guide same. Idler roll 55 is biased downwardly and toward drive roll 41 and presses tape 24 against drive roll 41 and rotation of roll 41 causes the advancement of tape 24 beyond drive roll 41 into and through guideway 28. The pressure of roll 55 against drive roll 41 is adjustable by spring means 107 in the form of springs .adjustably compressed by screws against shaft

OMPI

108 movable in slots 113 in each of walls 110 and 111. These - adjustable spring means 107 are shown to be located at each end of shaft 108 attached to housing 40.

•&nγ ^tv P ^e °f drive means to rotate drive roll 41 is operable although it is preferred to employ a simple manual means such as that shown wherein a driving pulley 44 and handle 43 drive belt 45 which in turn drives pulley 64 at¬ tached to shaft 108 for rotating drive roll 41, and the ro¬ tation of pulley 44 provides the necessary driving force to more tape 24 to the proper position within guideway 28. Tape 24 after it passes drive roll 41 passes through brake means 39 and thence into the long stretch of guideway 28 that ex¬ tends laterally across and underneath paper web 20 (as shown in FIG. 1) . Brake means 39 applies a frictional resistance to the sliding of tape 24 through guideway 28 and this fric¬ tional resistance is to provide the tension on tape 24 needed to cause it to cut through paper web 20. Because the width of paper web 20 is a substantial distance, it is preferred to support guideway 28 on a relatively rigid structure 46 so that guideway 28 will not sag or vibrate to such an extent that it might impair the movement of tape 24 therethrough and/or out the open slot 101. Support 46 may be any reason¬ ably rigid nonsagging structure such as an I-beam, an H-beam, a rectangular tube, or other structure well known in the art. Since the tape 24 must be pulled out of guideway slot 101 as it cuts the paper web, this frictional resistance may, in some instance, be sufficient without resort to a separate brake means 39 as shown and described hereinafter.

In FIGS. 5 and 6 the cutting means 38 in accord with this invention is more clearly illustrated. For a full under¬ standing thereof a description of the structure of the stiff tape 24 used in this invention is necessary. Tape 24, as shown in FIGS. 5, 11, 12, 13, and 14, is manufactured entirely of repulpable paper fiber which is twisted into separate strands and a plurality of the strands are laid together side- by-side in a lengthwise parallel abutting relationship and adhered to each other by a water-soluble adhesive to produce the tape. Preferably the tape is one strand thick and several

strands wide. The tape, for example, may be 0.5 - 1.0 inch wide and 0.02 - 0.05 inch in thickness which results in a tape of 10-20 strands, each about 0.02 - 0.05 inch in diam¬ eter. When tape 24 is cut in accord with the method and use of cutting means 38 of this invention, it is preferred not to cut completely through the tape, but only to partially sever ^' the tape. While such partial severing can be accom¬ plished in perhaps several different ways, it is preferred to sever the tape by cutting completely through all of the strands by a lateral cut, except for the edges of the tape which generally are the two outside strands of the tape by the cutting means 38 illustrated in FIGS. 5 and 6.

Cutting means 38 includes a guillotine knife blade 65 which is generally wide enough to cut through tape 24 except for the two outer strands. Knife blade 65 operates by moving reciprocally up and down in a groove 105 in guide housing 72 having an internal channel 110 through which sliding block 71 reciprocates. Knife blade 65 is affixed to block 71 by means of screw 76 so that blade 65 moves up and down as block 71 moves up and down. Guide housing 72 rests on base 73 through which knife blade guide 74 passes at right angles to feed slot 75 which guides tape 24 through base 73. Channel 110 has a reasonably close fit with block 71 so as to accurately guide the knife blade 65 to cut through tape 24 with good accuracy which is enhanced by knife blade guide 74. Shaft 66 is attached to block 71 by means of screw 77 and pro¬ vides the implementing means by which knife blade 65 is manu¬ ally moved to cut tape 24. Shaft 66 extends upwardly and ter¬ minates in handle 69 which is in any convenient shape for manually pushing knife blade 65 through tape 24. Shaft 66 is mounted in shaft guide 70 and it is biased upwardly by com¬ pression spring 67 operating toward the lower shoulder of guide 70 and engaging against washer 68 which is affixed to shaft 66. Accordingly, as shaft 66 is pressed downwardly to its cutting operable position, spring 67 is compressed, and when the force on handle 69 is released, spring 67 pushes shaft 66 upwardly to its upward position shown in FIGS. 5 and 6.

OMPI

In FIGS. 7, 8, and 11 the constructional details of _ brake means 39 are more clearly shown for providing a fric¬ tional resistance to the movement of tape 24 to restrain it from sliding too freely through guideway 28 and to cause the partially severed tape to become fully separated as the cut tape passes brake means 39. The brake means 39 includes a supporting structure 46 underneath guideway 28 which carries tape 24. A pressure member 78 is pivoted about pin 99 so as to provide more or less pressure upon tape 24 as it passes over a supporting solid surface, which may ^" be a roller 84, as shown in FIG. 7, or a solid flat surface or wear pad 112 of guideway 28, as shown in FIG. 8. Pin 99 is attached to leg 79 on each end of pressure member 78. Pressure member 78 preferably is a nonrotatable fixed surface, but it may be a roller. Pressure member 78 is fixed to legs 79 which in turn are fixed to adjustment screw holder 81 through which adjustment screw 80 is threadedly engaged. As the movable components of brake means 39 are rotated about pin 99, it may take any position from that shown in solid lines to that shown in broken lines 86 in FIG. 8. Side walls 96 are at¬ tached to guideway 28 or to its support 46 and serve as a support for brake means 39. Pin 99 is attached to walls 96 by means of tension springs 98 which are attached at their lower ends to walls 96. Slot 97 is provided in walls 96 to accommodate the movement of pin 99 as the structure is ro¬ tated about pin 99 in its various positions during the opera¬ tion illustrated in FIG. 7. When this structure is rotated to the broken line position 86, as shown in FIG. 8, no fric¬ tional resistance is applied to tape 24 and it is easily threaded through guideway 28 from one end to the other. After tape 24 has been threaded through the length of guideway 28 and is ready to be attached to the empty spool 23, the movable portion of brake means 39 is rotated back to the position shown in solid lines in FIG. 8 to cause tape 24 to be impeded in its movement in- the direction of arrow 114. Adjustment screw 80 acts against stop 82 and by adjustment of screw 80 more or less frictional resistance can be applied to tape 24,

'l ^rΛ ^ ^: . ^'

when it is in the position shown in FIG. 8. Tension springs - 98 apply the necessary force to pull the movable portion of brake means 39 down against tape 24 through guideway 28. It is desirable to employ a stop pin 83 to prevent the brake structure from tilting any farther backward than that shown in dotted lines 86 so as not to interfere with the threading of tape 24 through guideway 28. With tape 24 threaded com¬ pletely through the length of guideway 28 and in place for attachment to empty spool 23 as shown in FIG. 1, the movable portion of brake means 39 is rotated to the position shown in. solid lines in FIG. 8 and the tape is partially severed by cutting means 38 prior to the free end 51 of tape 24 being attached to spool 23. The frictional resistance 'applied by brake means 39 is sufficient, when tape 24 is attached to spool 23, to strip tape 24 out of upper open slot 101 in guideway 28 from its far end 50 back toward its near end 49 as the rotation of empty spool 23 causes tape 24 to spiral across and about the spool 23 from far end 50 to near end 49. The tension provided by brake means 39 causes tape 24 to be suf¬ ficiently taut and thus to provide a cutting edge for cutting through paper web 20. The partial severing of tape 24 by cut¬ ting means 38 permits the pulling of tape 24 behind the cut portion through the idler rolls 50 and 55 in housing 40 toward brake means 39 without rupture of the uncut strands of tape 24 until that cut portion passes completely through brake means 39. The tension on tape 24 is then sufficient to rupture the final uncut edge strands of tape'24 and thus sever the tape to await its next use when an empty spool again must be fed with a cut postion of paper web 20 by another length of tape 24.

In FIGS. 11 and 12 there is shown another simplified embodiment of this invention wherein brake means 39, as de¬ scribed previously in connection with FIGS. 7 or 8, is at¬ tached adjacent the end of guideway 28 supported on structure 46 and receiving a tape 24 that passes through cutting means 38 to be cut, as described previously in connection with FIGS. 5 and 6. Primarily this embodiment eliminates any particular structure for dispensing a supply of tape 24 on drum 37 and

the driving means to push tape 24 through the channel in guideway 28. Tape 24 is reasonably stiff and can readily be pushed through guideway 28 by hand, if desired, and per¬ mits any type of supply of tape 24 to be pushed through cut¬ ting means 38 and brake means 39 and across the lateral width of travelling web of paper 20. The free end of tape 24 at the far end of guideway 28 can then be removed by hand, be coated with an adhesive, and be ready to be applied by hand to the edge of empty spool 23. " Tape 24 is then cut by cut¬ ting means 38 for a sufficient distance longer than that re¬ quired to stretch across web 20 to provide the necessary length for spiralling around spool 23 and to cut completely across web 20. Normally, this extra length is about 3-4 feet longer than the length of spool 23.

In FIGS. 13 and 14 there is shown another embodiment of guideway 28 in which one of the shoulders of guideway 28 is movable to provide easier stripping of tape 24 from the channel in guideway 28. In either embodiment of guideway 28 it should be made entirely of a resilient plastic material, such as polyethylene. The guideway is made with an internal lengthwise slot which is slightly wider than the width of tape 24 and with a solid lower surface to the guide channel. An open slot 101 along the upper surface of the channel pro¬ vides two inwardly directed shoulders for preventing tape 24 from easily jumping out of the channel and yet slot 101 is sufficiently wide to permit tape 24 to become bent along its strand longitudinal axis and to be stripped out of the channel by force when it is applied to empty spool 23. Particularly if guideway 28 is made of aluminum or other rigid material, the embodiment in FIGS. 13 and 14 may be necessary. Guideway 28 of FIGS. 13 and 14 has two inwardly directed shoulders 29 and 30, the former being a fixed shoulder and the latter being a movable shoulder. The open portion between shoulders 29 and 30 is slot 101. Shoulder 30 is formed by a plate 113 which has a plurality of slots 31 in it at spaced intervals with pins 32 attached to the main body of guideway 28 cooperating with slots 31 to permit shoulder 30 to move laterally the

distance of the length of slot 31. In order to maintain the _ shoulder 30 in its proper positioning until tape 24 is stripped therefrom, there are added leaf springs 33 in spaced intervals to maintain shoulder 30 in its most inward position until tape 24 is pulled out from the channel as shown in FIG. 13. A taper is provided at each of the inlet and outlet ends of guideway 28 along shoulders 29 and 30, as shown at 100, to provide an easy entrance for feeding tape 24 therein and to facilitate the stripping of tape 24 from channel of guideway 28.

The improved method in accord with this invention includes the feeding of the free end of a stiff paper tape 24 into one end 49 of an elongated guideway 28 placed beneath and laterally across the travelling web of paper 20 and extending substantially the width of the empty spool 23 to which the travelling web 20 is to be attached. The free end 51 of the tape 24 is extended or removed from the far end 50 of the guideway 28 and adhered to the edge of the empty spool 23, and frictional resistance is applied to the removal of the tape 24 from the guideway 28. The adhesion of the tape 24 to the spool 28 combined with the frictional resistance causes the tape 24 to spiral around the empty spool 23 as the spool rotates, and the spiralling causes the tape 24 to travel across the face of the empty spool cutting through the travel¬ ling web of paper as it does so and transfers the web onto spool 23. If the tape is in a continuous length if will have been partially severed before the frictional resistance is applied to the tape and before adhering the free end 51 to spool 23. As the tape 24 spirals across the length of the empty spool 23, it is under sufficient tension to strip it from the guideway 28 through open slot 101, cut the web of paper 20, and guide that cut edge to become transferred to the empty spool to start the wrapping of the web thereonto. The partially cut tape is automatically severed completely when that cut portion passes through the frictional resistance and is subjected to the full force of the tension of the tape 24. It is particularly important in the preferred method of this invention to support the stiff repulpable paper tape in a

guideway 28 completely across the width of the paper web and - to partially cut through the tape before applying a frictional resistance to the passage of the tape as it is pulled through the guideway by the tape spiralling onto the empty spool 23, and then automatically completely rupturing tape 24 when the partial cut portion passes through the frictional resistance location.

It is to be understood that the dispenser 16 may be converted into a power assisted or operated one without de¬ parting from the scope or spirit of the invention. For ex¬ ample, an electric motor could be employed for the hand crank 43 and a solenoid or pneumatic cylinder and piston may be used to power the cutting means 38. In this manner a person could control the apparatus remotely even from the side of travel¬ ling web 20 opposite to the location of the dispensing appa¬ ratus 16.

While the invention has been described with respect to certain specific embodiments, it will be appreciated that many modifications and changes may be made by those skilled in the art without departing from the spirit of the invention. It is intended, therefore, by the appended claims to cover all such modifications and changes as fall within the true spirit and scope of the invention.

What is claimed as new and what is desired by Letters Patent is:

OMPI