EP0015268A1 - Method of and apparatus for the agglutination of sheets - Google Patents

Abstract

Method of agglutination of a plurality of sheets (2), more particularly sheets of paper, stacked. A punching mechanism (1) has a channel, through which a melted or dissolved glue can be introduced, and cuts a tap hole (9) in the stack. This orifice has a U-shape; the serrated or ridged incisions have one or more tongues (10) on each sheet which are folded relative to their normal position due to the downward movement of the punching mechanism, at the same time as the glue is introduced into the hole. The withdrawal of the punching mechanism causes the tongues to fold back into their original position and introduces the glue between the individual sheets and as well as their agglutination. Apparatus for implementing the method of the invention. The apparatus comprises a support (3) for holding a stack of sheets (2) and a cutting mechanism (1), one end face (13) of which has an angular or striated section. Said cutting mechanism has a hollow shaft (6) and means (14, 15, 17, 18, 19) for depositing glue on the punched tongues. In addition, the apparatus has means (12, 16) for returning the folded tongues down to their original position, after application of the glue on the tongues and removal of the punching mechanism.

Description

Method of and Apparatus for the Agglutination of Sheets

The invention relates to a method for the agglutination of sheets, more particularly of paper, but also of materials such as cardboard, textiles, foils, or the like, irrespective of vhether the said sheets are of the same material or of different materials, and an apparatus for the embodiment of the method.

A widely used means for interconnecting a number of sheets of paper or other materials, especially where the sheets have to be folded after the interconnection, as for example in the case of catalogues and magazines, is metal staples. Other methods invol sewing or welding. However, agglutination is also used, for exa pie in newspaper production where strips of glue the entire length of the newspaper are used for joining the individual pages. But agglutination of sheets of paper, especially of a plur lity of sheets, seems to be industrially advantageous in partic lar where it is possible to apply a flexible adhesive to a free edge of a stack of paper sheets. This is the method used for ex ample in the production of writing pads. But the agglutination accomplished by this method has only limited strength as the individual sheets of the stack partake only of a very narrow strip of glue.

According to British Patent No 1,305,485 a number of paper shee may be interconnected in the vicinity of the edge of the stack punching holes in the stack and in the same operation introduci: an adhesive into the hole, from which the adhesive is then supposed to spread between the individual sheets. A very similar m thod for interconnecting the sheets of a stack of paper by punc ing a hole for the introduction of glue is known from West German OS No 2 055 127.

The agglutination of superposed sheets can be improved by fanni: the sheets before subjecting them to adhesive. This method is known from the specification of British Patent No 681,858.

French Patent No 1,016,027 states a method for agglutinating sheets of paper by which fairly long tabs in the shape of narro tongues are punched up out of a line in the sheets and then ben back completely and subjected to adhesive whereafter said tongu are unbent again and made to combine into an interlace which is secured to the outermost surface of the stack. This agglutinati of interlaced tongues serves to interconnect outside the actual stack of sheets not only the individual sheets of the stack but also the stack and similar consecutively arranged stacks of fol ed paper, for example for bookbinding purposes.

The problem underlying the present invention is to provide a me thod which permits, better than any hitherto known method a ra pid, economical and tear-resistant agglutination, especially in the case of sheets that have to be folded after the interconnection. There seems to be no method in existence by which for example far larger numbers of sheets may be joined in one operation than is possible by means of the commonly used staples, and which implies less risk of tearing out of individual sheets than by methods involving the use of staples.

The specific character of the present invention is described in the characterising part of Claim 1.

In one embodiment of the invention it is proposed to provide a means for applying a thin strip of cardboard or the like to the strip of adhesive on the uppermost sheet immediately after adhesive has been applied and the tongues bent back. This permits the agglutinate stack of paper sheets to be transferred, folded or in any other manner further processed, even before the adhesive deposited on the sheets is dust dry, still less thoroughly hardened.

The method according to the invention provides strong and tearproof agglutinations. Furthermore, it can be automated and is economical in terms of consumption of time and adhesive. The present invention makes it possible to agglutinate even very large numbers of sheets in one operation, since the punched-out tongues can be very short and yet permit an effective agglutination. The fact that the final hardening or setting of the adhesive takes place inside the stack with the tongues returned to their original positions and with adhesive deposited between the slits of all the sheets provides a strong reinforcement of the hole where the agglutination takes place, preventing that any of the sheets become detached or can be torn put very easily. Thus agglutination of sheets of a wide variety of materials becomes a new alter native to methods of interconnection by means of staples, sewing, welding, etc., and opens up the possibility of new industrial applications for example agglutination of textiles.

In the following the invention will be more specifically described with reference to the accompanying drawing in which figure 1 is a perspective view of one embodiment of an apparatus according to the invention figure 2 shows examples of the shapeε of the punched-out slits figure 3 is a longitudinal section through a combined punching and adhesive-applying mechanism figure 4 shows another embodiment of the adhesive-applying mechanism figure 5 shows yet another proposed embodiment of same

Figure 1 shows the lower part of two suitably interconnected cobined punching and adhesive-applying mechanisms in a position where they have been moved vertically down towards and now just touch a horizontally positioned stack of paper sheets 2 resting on a support 3. Other directions of movement and other angles between the surface of the stack and the direction in which the punch is introduced are also possible, but an angle of approximately 90 seems preferable. The dot-and-dash line h on the she of paper suggests a line along which the stack of sheets may be folded after the agglutination. The agglutination can also adva: tageously be performed along an outer edge 5 of the sheets. By means of a suitably flexible and movable tube 7 the shaft 6 of the punching and adhesive-applying mechanism is connected to a container 8 for adhesive, which can advantageously be temperatu and pressure controlled to ensure convenient and even feed of a hesive.

The solid lines in figure 2 show a number of many possible shap of the slits 9 punched out in the sheets, whereas the dot-and dash lines show how the tongues 10 presented by the punch are bent down by the punching and adhesive-applying mechanism. The hatched areas represent the hole produced in the sheets by the punching operation. It is apparent that by choosing for example a serrated or corrugated slit it is possible to adjust the leng of the strips of adhesive so that even in a limited area fairly long strips can be obtained and thus adapted to the type of she to be agglutinated.

The punched-out tongues 10 need only be of very limited lenght, as will be apparent from figure 3. since the width of the strip of adhesive 11 deposited on the underlying sheets is determined by the degree of displacement of the bent-down tongues. Beyond a very narrow limit depending on such factors as the thickness of the sheets and on the angle of bending increasing the length of the tongues does not increase the displacement. Furthermore, relatively short tongues are advantageous in that they are capable of being more rapidly and conveniently returned to their original positions after the adhesive has been applied to them. Returning of the tongues can for example be effected by means of the two spring-loaded plates 12 situated in the support 3. However, the individual tongues need not be returned to their exact original positions. A certain degree of overlapping might even be advantageous. Such overlapping can be aided by letting the tongues be of a suitable shape, for example S-shaped, cf the last example shown in figure 2. By the method according to the present invention an effective agglutination of a fairly high stack of paper sheets can be accomplished without the tongues having to be long enough to be secured outside the stack. On the contrary, if the tongues are too long there is a risk that they may become entangled and thus form an obstruction preventing the complete passage of the adhesive-applying mechanism through the stack.

In the simple embodiment of the combined punching and adhesive applying mechanism shown in figure 3 reference number 13 designates the punching tool, which is attached to a suitably hollow shaft 6 provided with channels 14 through which melted, dissolved or dispersed adhesive can be fed evenly to a pad 15. The pad 15 can be made of felt, foam rubber or any other porous material and can have a cross section corresponding to the hatched areas in figure 2 which represent the holes formed in the stack of paper sheets and to whose sides the adhesive is applied.

Returning of the bent-down tongues 10 to their original positions can for example be effected by means of two underlying spring loaded . plates 12, the contiguous edges of which can advantageously be adapted to the shape of the slit and thus to that of the tongues. As the punching and adhesive-applying mechanism passes through the stack the spring-loaded plates 12 are pressed down to positions which form an angle approaching 90º with their ori g±nal positions. In the retraction of the combined mechanism,which follows immediately on the punching operation the springs l6 cause the spring-loaded plates 12 to return to their origin; position at the same time forcing the entire column of tongues i* wards to take up positions in the vicinity of their original po sitions in the stack where the final setting or hardening of the adhesive takes place. The fact that by the displacement of the tongues relative to each other adhesive has been distributed ovithe surface of each individual tongue ensures that when the ton gues are returned the adhesive will spread well when it is pressed out between all the sheets of the stack. If desired, the pressure on the sheets can be increased by letting the spring- loaded plates 12, which can advantageously be provided with a coating of an adhesive-repellent substance for example teflon bι controlled, instead of by the springs 16, by a special clamping mechanism, which advantageously can be coordinated with- the mech. nism for applying to the tacky areas on the uppermost sheet some means for inhibiting the adhesive effect, for example at least one piece of thin cardboard or plastics film, a powder or the like.

Figure 4 shows another possible embodiment of the adhesive-appl? ing mechanism, in which the porous pad 15 is replaced by a kind of brush. Approximately at right angles to the direction of operation are mounted a number of fairly stiff hairs or the like 1' The upper part of figure 4 shows an alternative to the brush, i_ the form of short, small-bore tubes 18 allowing the passage of adhesive. This form of the invention may provide an even better spread of the adhesive between the individual sheets of the sta< and furthermore the subsequent retraction of the adhesive- applying mechanism will aid the returning of the bent-down tongues.

As shown in figure 5 th.e introduction of adhesive can also be accomplished by means of a solid stick of adhesive 19, which cai for example be slightly tapered at one end to ensure a gradual ^ newal. This form of the invention might be particularly adyanta- geous for a smaller and simpler embodiment of an apparatus according to the invention, which could replace for example small staplers for metal staples.

The abovementioned adhesive inhibitor of cardboard may be needed in particular for the uppermost sheet, which is the first to be touched by the adhesive-applying mechanism, adhesive being applie to the entire area indicated in figure 2 by hatching. A similar passivation may be required for the adhesive applied to the nethermost sheet of the stack, for example in the form of a powder such as talc, which can prevent any undeεired adhesion to other surfaces. Alternatively, a kind of simple passivation can be obtained by folding the sheets immediately after the agglutination for example along the dot-and-dash line 4 in figure 1. A further advantage gained by passivating at once any inappropriately adhesive surfaces is that it permits the use of more slow-drying adhesiveε, with for example water as disεolving or dispersing agent and thus less harmful to the working environment.

Claims

1. Method for the agglutination of sheets of paper, cardboard, textiles, foils, leather or other materials wherein a punching mechanism is passed through the sheets to be agglutinated to punch out at least one slit, and thus a tongue or tongues, of serrated, corrugated or any other suitable cross section permitting that in the passage of an adhesive-applying mechanism, preferably associated with the punching mechanism, a suitable hole is established through the sheets, while at the same time adhesive is applied to the tongues which are bent and fanned in the formation of the hole, whereafter said tongues, are returned to substantially their original positions in or after the retraction of the punching and adhesive-applying mechanism so that the final agglutination is effected inside the stack of sheets.

2. Method as claimed in claim 1, wherein directly in connection with the application of adhesive at least one strip of thin cardboard or plastics foil, a powder or any other adhesive inhibiting means is applied to the adhesive areas of the upp. surface of the uppermost sheet or sheets of the agglutinate stack.

3. Apparatus for carrying out the method claimed in claim 1, wherein are provided a support for supporting a stack of sheets and further a punching mechanism for being passed through the stack of sheets in the direction of the support and which includes a leaf- shaped cutting tool with an end fat for example of angular or corrugated cross section and a sha. on the surface of which are provided means for applying adhe. ive to the tongues punched out of the sheets by the cutting tool, and further a means for returning as the cutting tool is retracted the bent-down tongues to substantially their or: ginal, mutually parallel positions.

4. Apparatus as claimed in claim 3_. wherein the support is provided with at least one movable plate suitably adapted to the cross sectional shape of the cutting' tool end face and capable of yielding when acted on by said end face as it passes through the stack and further capable of springing back at the same time causing the punched-out and bent-down tongues to return to substantially their mutually parallel positions.

5. Apparatus as claimed in claim 3. wherein the dissolved, melted or dispersed adhesive is fed from a container which can advantageously be pressure and temperature regulated to pass through movable tubes into the hollow shaft of the punching mechanism from where it passes on through channels in the shaft to be deposited on the porous pad or the brush or the equivalent thereof of the adhesive-applying mechanism or the adhesive can pass out through fine tubes connected with the channels of the shaft and arranged preferably at right angles to the direction of travel of the shaft.

6. Apparatus as claimed in claim 3, wherein the adhesive is applied by means of a solid stick of adhesive which advantageous. ly can be associated directly with the punching mechanism.

7. Apparatus as claimed in claim 3, wherein is provided a means for carrying out the method as claimed in claim 2.