ITLU20110015A1 - MULTI-PURPOSE SPREADER STICKER AND PARTS - Google Patents

Description

DESCRIPTION:

a) The invention relates to the gluing unit for the web and specifically which has as its invention the system for depositing the layer of glue on a hiatus of the web of embossed paper, which is still perfectly copying the engraved embossing steel roll or on an already embossed web but it has already come out of the engraved steel embossing roller, this glue deposit is constant during the acceleration phase, at full speed and during the deceleration speed of the paper up to zero machine stop speed.

b) The gluing unit for the traditional paper web is widely used in the converting sector, the sector of automatic continuous rewinders for toilet paper, kitchen towels and industrial rolls. This group coils very well on the continuous rewinders since once the machine has been adjusted and started at a constant working speed, it never stops until the end of the mother reel. However, these continuous machines are not versatile at all (they work well on a specific type of product, they are used for large productions of toilet paper, kitchen towels and industrial rolls) in fact when it is necessary to change the core, external diameter of the finished roll etc. .., it really becomes a problem, another problem is the cost, which is accessible only to an elite of companies. With the invention of the multipurpose gluer we can make toilet paper, kitchen towels and industrial rolls glued with the so-called stop and parts rewinders (stops and parts means that the rewinder stops every time we have wrapped a paper log and it restarts after the new core has been positioned to start wrapping the new log. This type of machine has a much lower construction cost and unrivaled versatility. With the invention of the multipurpose gluer, this rewinder stationary and parts can also glue the paper web is always constantly both in the acceleration phase in the steady speed phase and in the deceleration phase and by wrapping a log of tissue paper of the same quality as that produced by the continuous rewinders.

c) The purpose of the invention is to constantly distribute the glue, of the necessary and regulated dose, on the web of embossed paper present on the embossing steel roller or on the web already embossed but free, that is after the exit of the engraved steel embossing roller. It allows you to use stationary rewinders and much less expensive and much more versatile parts in the production of different products. It therefore allows you to lay a constant and correct quantity of glue on the veil. The rewinders stop and parts have the characteristic that the paper that is rewound in log taken from the mother reel, stops every time the log has reached the desired size. Then it starts again to rewind the next roll. During this cycle we have an acceleration of the paper speed, a constant speed of the paper regime and a deceleration of the paper speed up to speed 0 with the log completed. These cycles are repeated countless times for each mother reel to be processed. It is currently a huge problem to constantly lay the glue on the paper veil, a problem that has never been solved yet. Several unsuccessful attempts have been made: I will mention one, the most current but it does not give results since to glue the paper web this system uses two ways: during the steady speed phase, the glue is normally deposited by a common group gluer that is mounted on the continuous rewinders (that is, on the rewinders that never stop during the processing phase and have a constant speed). While during the acceleration phase and the deceleration phase the traditional gluing unit is disconnected and a type of spray gluing is put into operation with nozzles present on the entire width of the paper. But in the nebulization of the glue by spraying it on the paper film it is very difficult if not impossible to maintain the same density of the sprayed glue in the cone jet or in other forms that is directed on the paper to be glued. Then in production the spray nozzles get dirty by varying the power of the jet and the density itself, etc. The fact is that there are no minimum guarantees that the right amount of glue can be deposited on the paper to make an acceptable gluing of the two plies.

According to the invention, all this can be obtained by mounting a rubberized glue fishing roller with variable arrow which distributes the glue directly on the lapped roller with the characteristics that the glue fishing roller in question bends upon a command, generating a variable arrow necessary at the center of the table. of the roller from 0 to Ï ‡ always maintaining the rotation of the external surface which is in contact with the lapped roller. During the acceleration phase, the glue passage between the two rollers has an ever greater increase and therefore the bending of the rubber-coated roller with variable arrow will progressively increase as the speed increases, always keeping the quantity of glue deposited on the paper web constant up to to reach the working speed which will remain constant with the consequence that also the glue will be transmitted constantly until the deceleration begins, at which time the glue passage will decrease up to stop speed and at this point the bending of the rubber-coated roller with variable arrow it will progressively decrease as a function of the decrease in speed, always keeping the quantity of glue deposited on the paper web constant.

This action of the variation of the arrow of the rubber-coated roller with variable arrow can be combined with another action which consists in applying a certain variable pressure on the ends of the rubber-coated roller fishing glue with variable arrow. This pressure variation will always depend on the acceleration and deceleration of the rollers, while it will remain constant at constant speed.

The rubber-coated roller with variable arrow is mounted at the ends on special arms, oscillating or sliding on guides, and is approached with a certain pressure to the lapped roller to transfer the glue. The arms are operated by special very sensitive load cells that regulate the pressure increasing or decreasing respectively during the acceleration - speed - deceleration phase, in turn, again through very sensitive load cells, allow the formation of the arrow in the center of the table of the rubber roller with variable arrow arching the whole roller with variation of the arch of the rubber roller with variable arrow during acceleration and deceleration while the arc of the rubber roller B remains constant during the constant speed.

In the traditional rubber-coated glue rollers, the camber was carried out on the rubber in order to compensate for the deflection generated by the pressure of the rubber-coated glue-fishing roller on the lapped roller. But this thing allowed to have only one optimal adjustment for working at a single working speed. By optimizing the camber of the roller, it draws glue at a working speed that will always be one and constant. Since in the rewinders stop and start, having an acceleration of the speed at the beginning of the winding, a constant speed during the operating speed and a deceleration speed at the end of the rolls to be wound, up to zero speed, we have that in the formation of the finished roll of paper there are various moments in which the winding speed of the paper changes and this causes a very bad or even non-existent excessive gluing.

With the invention in question we can have a web gluing that is always constant and therefore optimal even with the variations of working speed in acceleration, constant speeds during the steady state and deceleration phase by acting only with the load cells on the variation of the arrow of the rubberized roller with variable arrow fishing glue and on the pressure at the ends of the rubberized roller with variable arrow fishing glue. With this variation of the arrow at the center of the table of the rubber-coated roller with variable arrow we can have a constant distribution of the glue of the quantity necessary to glue the paper plies even during accelerations and decelerations of speed.

With this invention it is no longer necessary to make the correct camber on the rubber roller but the table of the rubber roller will be perfectly cylindrical.

The invention will now be illustrated through examples and with references to drawings as follows: d) e) The drawing TABLE 1 shows the operating diagram of the polyvalent gluing unit.

The gluing unit of the polyvalent plies and parts, drawing TABLE 1, is composed of a glue distribution doctor blade F, a special variable-arrow rubber roller B which receives the glue on all its external surface (this rubber-coated roller with Special variable B at speed 0 is perfectly cylindrical while at full speed it has undergone a maximum deformation. During acceleration, it generates a progressive arrow in the center of the table from 0 to X respectively from speed 0 to constant speed until it returns progressively to the arrow 0, with a speed of just above 0, during deceleration. This rubberized roller with variable arrow B is always approached to the lapped roller C and always rotates at a minimum speed of a few revolutions above 0 to never dry out. the glue. (When the machine is stopped it can be moved away from the lapped roller C).

The rubber-coated roller with variable arrow B transmits the glue to the lapped roller C in the right and constant quantity to glue the optimal web without any interruption. Even during the acceleration phase and the deceleration phase.

All this is obtained by varying the curvature of the table of the rubberized roller B which generates an arrow, in the center of the same, which increases in the acceleration phase of the paper speed, constant in the phase of constant speed of regime, in decrease of the phase. of speed deceleration. This very precise variation of the arrow (by bending the table of the rubber-coated roller with variable arrow B) determines the deposit of a film that is always constant on the lapped roller C in all phases (acceleration, operating speed and deceleration) for the excellent gluing of the plies. . This is achieved by the action of very sensitive load cells.

To the action of variation of the curvature of the table and consequently of the arrow of the rubber roller B, pressure can also be applied simultaneously on the two ends of the rubber roller B, again as a function of the acceleration speed, the operating speed, and the speed. of deceleration. This thrust is generated by special very sensitive load cells. All this combination of events is controlled by a special program that manages the control and the various opportunities.

Finally, the lapped roller C distributes the glue on the paper web which is always in contact with the embossed engraved steel roller D. The lapped roller C can also be built with a variation in the curvature of the table with consequent variation of the max arrow in the center of the table of the same lapped roller C.

Each time the paper stops, the glue unit Ï ‡ detaches from the embossing roller D of engraved steel but the rubber roller B and the lapped roller C continue to rotate at the minimum speed just above 0 to prevent the glue from drying.

The rubberized roller B with variable arrow is mounted on special oscillating arms (or on special side panels sliding on guides). Load cells suitable for pressure variation at the end of the roller are applied to the arms.

At the head of the rubberized roller 8 there is a special mechanism controlled by very sensitive and very precise load cells, suitable for varying the max deflection at the center of the table of the rubberized roller B.

The doctor blade F is the traditional glue distribution system; it is fed by a pump that takes colia from the tank and the pump into the doctor blade which in turn carries out the first and coarse distribution of glue on the rubber-coated roller B with variable deflection.

The lapped roller C is fixed mounted on the side panels of the gluing unit Ï ‡, on which both the doctor blade and the fulcrum (or sliding guides) of the rubber roller B with variable arrow are fixed. The whole gluing unit is pivoted on the main sides of the double steel rubber Y embosser so that when the paper stops it can disengage by keeping the rubber roller B with variable arrow and the lapped roller C at a minimum rotation to prevent the glue from drying out.

Claims (5)

CLAIMS: TABLE 1, the multi-purpose gluing device, stops and parts, includes a doctor blade F for the first glue delivery to the rubber-coated roller B with variable arrow, a rigid cylindrical lapped roller C (but a lapped roller C with a curved table can also be mounted with variable deflection, also depending on the acceleration and deceleration speed); the gluer of the polyvalent plies stops and parts with rubberized roller with variable deflection B generated by a special mechanism inside the table of the roller itself, the maximum deflection in the center is variable from 0 to n mm or fractions of mm with deflection adjustment during acceleration, speed and deceleration phase by means of a mechanism operated with very sensitive load cells, the rubber-coated roller with variable arrow B deposits the glue along the width of the table of the lapped roller C, in turn the lapped roller C transfers the glue present by contact , on its entire table, on the paper that is positioned on the engraved embossing steel roller D. 2) The gluing unit for multi-purpose plies and parts, TABLE 1, includes a doctor blade F for the first glue delivery to the rubber-coated roller B with variable arrow, a cylindrical rigid lapped roller C (but a lapped roller C with a table can also be mounted it bends with variable deflection, also as a function of the acceleration and deceleration speed); the gluer of the polyvalent webs stops and parts with rubberized roller with variable arrow B generated by the pressure exerted on the variable end arms with load cells, this pressure variation is applied in the acceleration phase and in the deceleration phase according to the speed of acceleration and deceleration, the rubber-coated roller with variable arrow B deposits the glue along the width of the table of the lapped roller C, in turn the lapped roller C transfers by contact the glue present, on the whole table, on the paper that is it is positioned on the embossing steel roller incìso D; sensitive load cells suitable for calibrating the pressure variation on the extremity arms of the rubberized roller B by varying the arrow in the center of the table of the same. 3) Multi-purpose gluing device for firm and parts plies according to claim 1 is characterized by a lapped roller C with variable arrow roller table from 0 to n mm or fraction of mm with arrow adjustment from 0 to n mm or fractions of mm. 4) Multi-purpose gluing device for firm and parts plies according to claim 2 is characterized by a lapped roller C with variable arrow roller table from 0 to n mm or fraction of mm with deflection adjustment from 0 to n mm or fraction of mm. 5) Multi-purpose ply gluing firm and parts according to claims 1 and 2 is characterized by the combined action, on the rubber roller B, of varying the arrow at the center of the table, determined by the variable pressure on the extremity arms of the rubber roller B and of the special mechanism with load cells inside the table of the rubberized roller B; The multi-purpose ply gluing firm and parts is characterized with the combined actions of claims 1, 2 and 3.