The present invention relates to an apparatus for laying a material sheet on a number of cylindrical bodies, for example cores or sleeves of paperboard or the like which are employed within, int. al. the papermaking industry, for winding a manufactured paper web, sheet web or the like. The invention further relates to use of the apparatus for preparing substantially spliced or joined sleeves which are also cut to the desired length, for example paperboard sleeves which are employed within, int. al. the papermaking industry for winding a manufactured paper web, sheet web and the like and a core or sleeve for application in the use of the apparatus according to the present invention.
In various contexts, and in particular within, int. al. the papermaking industry, it has become a steadily growing need to be able to splice or join and prepare sleeves of, above all, paperboard in order to be able to reuse sleeves that would otherwise be scrapped. However, very stringent demands are placed on the quality of the joined sleeves. This relates in particular to the joint itself which must be strong (display great mechanical strength in all axes) and which must maintain the sleeve parts aligned with each other and have the correct roundness. The demands on mechanical strength are particularly great, since a sleeve breakage may lead to serious accidents with both personal injury and sever machine damage as a result. In recent years, the quality demands have been further accentuated and in many cases, it is required that joined or spliced sleeves shall not, in principle, be distinguishable from homogeneous or unjoined sleeves as regards both appearance and mechanical strength. There is thus a great need in the art to realise an apparatus for rational handling of cylindrical bodies and preparation thereof with a material sheet or a material web or strip which is laid on the cylindrical bodies continuously in a helical line with the desired spacing between the edges of the material web.
The task forming the basis of the present invention is to satisfy the above-outlined wishes and needs by means of an apparatus for applying a material sheet, use thereof, as well as a sleeve for application in the employment of the apparatus.
This task is solved according to the present invention in that the apparatus intimated by way of introduction is given such characterising features that a conveyor is provided to feed the cylindrical bodies in the longitudinal direction thereof to, past and away from a unit for feeding a material web to the bodies, and that the conveyor is divided into at least two sections, of which the one section is disposed to displace the cylindrical bodies in their longitudinal direction up to connection to the end of a preceding body, and of which the second section is disposed to positively rotate the cylindrical bodies about their longitudinal axis and displace the cylindrical bodies in the direction of their longitudinal axis during the application of the material web, with the desired spacing between the edges of the applied material web. The one conveyor section is disposed to displace the bodies at a higher speed before the unit for applying the material web for connection of the bodies to the end of the preceding body and to permit slippage of the bodies after the connection to the end of the preceding body. The conveyor sections include a number of wheels disposed on either side of the bodies, the wheels being obliquely inclined to the longitudinal axis of the bodies for rotation and driving thereof towards, past and away from the unit for applying the material web. The wheels are rotary by means of a driving belt which extends around their periphery and on which the sleeve rests and which moreover extends to and around a drive pulley. The wheels are disposed pairwise and are obliquely inclined pairwise for regulating the advancement speed of the bodies. The wheel pairs in the one section of the conveyor may be obliquely inclined independently of the wheel pairs in the second section of the conveyor. The drive pulleys for the wheels on the one side are disposed on a common shaft and the shafts are interconnected with one another and a drive unit for synchronous driving of the shafts and thereby the pulleys and the obliquely adjustable wheels. The shafts in the one conveyor section are discrete and separate from the shafts in the second conveyor section in order to permit differentiated driving of the wheel pairs in the different sections. A knife is disposed to cut the applied material web at the end of the body after its passage of the unit for applying the material web during the conveying-off of the body therefrom. A number of wheels are disposed above the bodies at the unit for applying the material web for urging the bodies against the conveyor wheels. A trailing wheel is disposed for abutment against the cylindrical body flush with a point where the material web is laid on the cylindrical body. Use of the apparatus according to the foregoing for preparing substantially spliced or joined sleeves cut to the desired length, for example paperboard sleeves which are employed within, int. al. the papermaking industry for winding manufactured paper webs, sheet webs and the like is characterised in that the spliced or joined sleeves are placed in sequence after one another on the one section of the conveyor and are fed end-to-end under rotation about their longitudinal axis to, past and away from the unit for applying a material web in the second section of the conveyor with the desired spacing between the edges of the material web. The outside of the joined sleeves is ground prior to the application of the material web. The surface of the material web facing towards the outside of the joined sleeves is coated with glue prior to the application. The opposing side of the material web in relation to the glue is moistened for evening out tension in the glued material web. The female section of the sleeve joint on the sleeve parts is bevelled and the male section of the sleeve parts is bevelled, at least the one chamfer being coated with glue and the male section and female section being pressed together. The one sleeve part in the joint is bevelled from inside to outside and the other sleeve part is bevelled from outside to a distance from the inside for forming a space between the insides of the sleeve parts. The angle of the chamfer is flat, from 5° to 20°, preferably 10°, in relation to the longitudinal axis of the sleeve.
As a result of the present invention, a novel apparatus will be realised which permits laying of a material sheet, a material web or a material strip on a number of cylindrical bodies which are advanced continuously in sequence after one another in their longitudinal direction under rotation thereof about their longitudinal axis, with the desired spacing between the edges of the applied material strip which thereafter forms a helical covering sheet. The use of the apparatus according to the present invention makes for an extremely rational operation of specifically joined paperboard sleeves for winding a manufactured paper web, sheet web and the like. By the employment of the apparatus according to the present invention, there will be made possible a high degree of automation for achieving an extraordinarily favourable cost break-down. A sleeved joined and prepared according to the present invention displays an extremely high degree of quality and is extremely difficult to distinguish from a newly-manufactured, unjoined sleeve. In order to be able to distinguish a sleeve according to the present invention from a newly-manufactured sleeve, there is actually required an extremely in-depth optical examination thereof, and on many occasions a difference can only be detected from the inside of the sleeve.
The present invention will now be described in greater detail hereinbelow, with reference to the accompanying drawings.
The embodiment of the apparatus according to the present invention shown on the drawings will be described hereinbelow in connection with the preparation of joined sleeves of paperboard or similar material which are also cut to the desired length. The paperboard sleeves are intended for use within, int. al. the papermaking industry for winding a manufactured paper web, sheet web or the like. Nevertheless, the field of practical application is not restricted to such use, but encompasses all coating of cylindrical bodies with a material web or a material strip or a material sheet, with the desired spacing between the edges and so that the applied covering sheet forms a helical line. The cylindrical bodies may be homogeneous or hollow, thick- or thin-walled, long or short, etc., and may, after the application of the material sheet, be considered as forming a continuous cylindrical body, until the material sheet is cut at the ends of the bodies. According to the following description, the cutting of the material web takes place at the end of the body during displacement thereof with the applied covering sheet away from that position in the apparatus where the material sheet is applied and laid on the body.
The sleeve 1 in the apparatus shown according to
The joint according to the present invention described with reference to
The joined sleeves are advantageously to be ground, for example centreless ground, and thereafter cut to the desired length. The joined, ground and also cut sleeves can be magazined or fed direct to an apparatus according to the present invention, one embodiment of such an apparatus being shown in greater detail in
The apparatus according to the present invention illustrated in
The driving belts 13 and 16 may be given different properties for the desired handling of the sleeve 1, for example the driving belts 13 and 16 may be designed so that they do not reach up to the periphery of the wheels 11 and 12 and, as a result, do not act on the sleeve 1, but they may also extend up over the periphery of the wheels 11 and 12 for engagement with the sleeve 1 and displacement thereof in the longitudinal direction of the conveyor. The surface of the driving belts 13, 16 and/or the wheels 11, 12 may be of low-frictional type, so that slipping is permitted between them and the sleeve 1. However, the friction should be so great that the sleeve 1 is displaced in the longitudinal direction of the conveyor in contact with the end of a sleeve lying ahead, before the end reaches the unit 9 where application of the material web 10 is commenced.
The part of the conveyor located substantially in register with the applicator unit 9 and to the right thereof is of substantially the same design and construction as the above-described part of the conveyor to the left in
As will be apparent from
After passage of the unit 9 for applying the material web 10, the sleeve 1 is advanced to a carrier 41 which is secured on the end of a rod 43 which, at its opposing end, carries an arm 45 with a knife and which is displaceable in its longitudinal direction in brackets 44 and 45. The knife may appropriately be rotary. The distance between the arm 41 and the arm 43 with the knife is the same as the length of the sleeve 1. As soon as the sleeve 1 has reached the arm 41, the arm 43 with the knife will be pivoted down towards the sleeve so that the rotary knife at its end will cut the material sheet or web 10. The arm 41 may naturally be combined with different types of positional sensors 46, 47 and 48 which serve the purpose of indicating for any possible regulator equipment where the prepared sleeve is located on the conveyor for actuating other units in the apparatus or the plant.
In the apparatus according to the present invention shown on the drawings, the sleeve 1 will thus rest on obliquely inclined wheels 11; 12 and 23, 24 whose function is to support the sleeve 1, advance the sleeve 1 forwards in the apparatus, as well as to rotate the sleeve 1. As a result of the advancement and rotating movement of the sleeve, it is possible to apply thereon a material sheet or web 10 in a spiral or helix. It is naturally important that the sleeve 1 overhauls the preceding sleeve, but thereafter slips. In that the oblique inclination of the wheels 11, 12 and 23, 24 may be put into effect with a high degree of precision, it is possible to apply the material sheet or web 10 with a pre-determined pitch for attaining a desired and uniform spacing between the turns or the edges between the turns. It is of importance for the user that there is no excessive distance between the sheets, since, in such an event, a pattern can occur on the lower layers of the paper on winding. Moreover, it is of importance that the material sheet or web 10 does not overlap the material sheet 10 in the preceding turn, since this would also give rise to patterns in the paper layers located most proximal the sleeve.
As was mentioned above, it is of importance that the wheels 11, 12 after the applicator unit 9 display a higher peripheral speed than the wheels 23, 24 ahead of them. This is because the sheet has imparted a greater diameter to the sleeve. The higher peripheral speed may also be achieved in other ways, for example a higher speed of rotation or by a larger radius of the wheels 23, 24 than the wheels 11, 12 ahead of the sheet applicator unit 9. It is also appropriate to take into account the larger diameter of the sleeve 1 after the application of the covering sheet or material web 10.
The employment of an apparatus according to the present invention may proceed as follows. The sleeve 1 is placed in the infeed section to the left of the applicator unit 9, whereupon the sleeve 1 accelerates so that it overhauls the preceding sleeve. The sleeve 1 lies loosely on the advancement wheels 11, 12. The sleeve 1 arrives at the sheet applicator unit 9, where the speed is constant, since the sleeve has superjacent wheels 37, 38, 39 which, with a pre-determined compression force, entail that the sleeve 1 follows the speed of the obliquely inclined wheels 23, 24 with great accuracy, while overcoming the braking force that is exercised by the material web or sheet 10. The material sheet 10, which has been coated with glue on the one side, fixes in the outer layer of the sleeve 1. An accompanying knife cutter 41, 42, 43 cuts the material sheet 10 in the division between the sleeves. In order to find the division between the sleeves, a guide 41 follows the front end of the sleeve. Causing a knife 43 to follow the sleeve 1 in this manner for cutting the entire sleeve thickness is prior art technology, but this is applied in this case only for cutting the material sheet 10.
As was mentioned above, it may be appropriate, at least at the ends of the sleeves, to moisten the material sheet 10 on the opposing side in relation to the glued side, for counteracting tension in the material sheet 10 which could otherwise be caused by the fact that there is water-soluble glue on the one side but none on the opposing side. Without moistening, there is a risk that the sheet 10 will bend upwards and outwards from the sleeve 1 which may result in the sheet 10 coming loose and rising up at the ends of the sleeve 1 after the cutting of the sheet 10. The gluing in the unit 9 preferably takes place using a pre-gluing unit, spray nozzle, slit glue orifice or the like which distributes the glue uniformly over the one side of the sheet 10 without forming droplets or glue running along the edge of the sheet. The glue is preferably PVA glue, but glue of other compositions may also occur, for example sodium silicate and dextrin. The material sheet 10 may also have its one side pre-glued in order subsequently to be moistened just before the application. The moistening may be put into effect by a spray, contact roller or dipping. Also in this case, it is appropriate to moisten the opposing side in relation to the glued side. The material sheet 10 may also be provided with a glue or adhesive in the same manner as an adhesive strip that is moistened for activating the adhesive or glue, or of tape type.
The apparatus may, according to
It has proved to be suitable that the displacement speed of the sleeves 1 is adjustable in the different sections of the conveyor for attaining the desired result in the form of a uniform covering sheet with the desired distance between the edges. In the apparatus according to the present invention, it is easy to realise the desired adjustments by oblique inclination of the wheel pairs in the different sections and by the possibility of slipping in the first section and substantially positive displacement in the second section during and after the application of the material sheet or web 10.
Many modifications are naturally possible without departing from the scope of the inventive concept as this is defined in the appended claims.
Number | Date | Country | Kind |
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0300963 | Apr 2003 | SE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/SE2004/000473 | 3/26/2004 | WO | 00 | 9/30/2005 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2004/087551 | 10/14/2004 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
3074605 | Shaw | Jan 1963 | A |
3260390 | Morain | Jul 1966 | A |
3322291 | Smith | May 1967 | A |
3664531 | Magnusson et al. | May 1972 | A |
4946528 | Takahashi et al. | Aug 1990 | A |
6231711 | Roberts et al. | May 2001 | B1 |
Number | Date | Country | |
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20060180696 A1 | Aug 2006 | US |