DE2346824A1 - Applying molten adhesives to rigid or flexible underlays - coating full width without risk of overflowing the sides - Google Patents

Abstract

Heat-melted materials, esp. molten adhesives are applied to surfaces having differing characteristics in an installation holding the molten material in a store above the nip of a stationary heated roller and a rotating drum, on the circumference of which the adhesive is carried to the receiving surface. The rotating drum which may be heated or cooled and has an outer envelope of highly polished metal or of an elastomer such as silicone rubber, is constantly covered with the molten material from the store and the transfer to the underlay takes place at a point relatively remote from the adjustable nip with the heated roller. The material being coated cannot come into proximity with the heated roller and the temp. of the adhesive can therefore be raised so as to ensure full fluidity and greater uniformity.

Description

DR-INQ. DIPL.-ING. M. SC. Γ. I PL -PHYI. DR. OIPL.-PHVS.

HÖGER - LEGAL RIGHT- GRlESSBACH - HAECKER

PATENT LAWYERS IN STUTTGART

A 40 287 m

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Sep 10, 1973

Joh. ProIs Ing. 7085 Bopfingen-Bayermühle

Device for applying hot melted materials

The invention relates to a device for applying hot melt Materials, in particular hot melt adhesives. advanced surfaces in which the hot melted material as Supply continuously introduced into the gap between a first, heated, stationary roller and a second, rotating roller and the surface is moved past the second roller.

It is known for the coating of web-shaped documents Paper, plastic films, textiles or the like. With hot-melt materials, in particular hot-melt adhesives, in the gap between two closely spaced rollers, at least one of which can be heated, a supply of melted material continuously bring in and the substrate to be coated through the gap between the two rollers and the supply of melted Pass material through. The heated one stands

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The roller is preferably fixed while the web unrolls on the other roller. On the side facing away from the rotating roller the base is coated with the molten material.

It is disadvantageous that the substrate to be coated in the immediate vicinity of the heated roller and through the supply hot, melted material. Particularly in the case of documents made of plastic, the can be applied to the base Acting high temperature lead to a shrinkage or a warping of this film. It is also in this device it is not possible to carry rigid documents, such as boards or doors, between the two rollers and in the described Way to coat.

Another disadvantage of this device is that the documents are not coated over their entire width can. On the contrary, the width of the coating must always be smaller than the substrate to be coated. This is necessary because when the substrate passes through the melted supply of material there is otherwise the risk that the melted Material past the edges of the pad onto the back of the pad, i.e. between the pad and the rotating one Would penetrate the roller. This can only be avoided if the supply of molten material does not come into contact with the edges comes, i.e. when the coating width is smaller than the substrate width.

It is the object of the invention to create a device for applying hot-melted materials which allows a full-surface coating of any substrate without to expose them to a temperature shock.

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The object is achieved according to the invention in that the second roller from the supply is constantly wetted with hot-melted material and the transfer of the material by contact between the second roller with the surface to be coated on one Place takes place, which is spatially separated from the supply.

The following description of preferred embodiments of the The invention is used in conjunction with the drawing to provide a more detailed explanation. Show it:

1 shows a sectional view of a device according to the invention, taken along line 1-1 in FIG is cut and

FIG. 2 is a top plan view of the apparatus of FIG. 1.

An embodiment of the device according to the invention is shown in FIG Fig. 1 shown. It essentially comprises a number of horizontally mounted rollers and a device for feeding of the melted material to be applied to the surface to be coated. A fixed heating roller 1 and a rotating coating roller 2 form a gap 3 with each other. The fixed roller 1 is arranged so that its axis is preferably higher than the axis of the coating roller 2. The axis of the roller 1 can, however, in other embodiments also be arranged at the same height or lower than the axis of the roller 2. The two rollers 1 and 2 form above of the gap 3 a storage space 4. In this storage space 4 there is a supply 5 of melted material. Of the Supply 5 is continuously replenished from a supply line 6, which is e.g. connected is.

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The width of the gap 3 can be varied, for example by having the roller 1 opposite the roller 3 perpendicular to the axial direction is arranged displaceably. The roller 1 is made of metal, preferably of chrome steel. It is heatable, e.g. by passing hot heat-conducting oil through its interior. Other heaters, e.g. electric heaters, can also be used. The coating roller 2 can also consist of metal, in particular of chrome steel. In some Cases, it is advantageous if this roller or at least its casing is made of an elastic material, in particular made of silicone rubber. The roller 2 can optionally be cooled or heated, e.g. by passing coolant through it or heated thermal oil. To form a constant layer thickness, the surface of the rollers 1 and 2 is as possible smooth. So the roller 1 and optionally also the roller 2 consists e.g. of chrome steel, which is used to achieve the greatest possible Smoothness has been ground.

The roller 1 could also be replaced by a heatable stripping device with a different cross-section, but the roller shape is special advantageous because it is very stable against deformation. In addition, the roller 1 can damage its surface rotated a little, and then there is again a smooth, sanded surface to form a Gap 3 of precisely adjustable size is available.

At the end faces of the rollers 1 and 2, vertical boundary surfaces 11 and 12 are provided on both sides of these rollers, which fit closely to rollers 1 and 2. These boundary surfaces can also serve to accommodate the roller bearings.

The substrate 9 to be coated is guided on guide rollers 7 and 8, which are used in the case of rigid substrates, e.g. boards or

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Doors, at the same height, with flexible documents, such as sheets of paper, plastics, textiles or the like, optionally are also arranged at different heights.

According to the invention, the web-shaped surface to be coated is guided directly past the coating roller 2, and in such a way that the point of contact between the roller 2 and the base 9 takes place at a point that is taken from the supply 5 is spatially separated.

During operation of the device according to the invention, material, in particular molten material, is continuously melted through the feed line 6 Hot melt adhesive, introduced into the storage space 4 formed by the rollers 1 and 2 and the lateral boundary surfaces 11 and 12. The amount of molten material supplied can be measured in a manner known per se by a measuring device (not shown), which determines the level of the molten material located in the storage space 4, can be controlled so that the supply amount in the storage space 4 always remains constant. As hot melted Materials come in particular hot melt adhesives, waxes, polyethylene, paraffins or the like. In question.

When the coating roller 2 rotates in the direction indicated by an arrow A in Fig. 1, the surface becomes this roller is wetted with the melted material. The thickness of the layer 13 of the melted material on the Roll 2 is determined by the width of gap 3. By varying this gap width, the thickness of the layer 13 can be increased the roller 3 can be set very precisely so that it is always exactly the same during the entire coating process. At the point at which the substrate 9 to be coated touches the roller, the layer 13 is transferred from the roller 2 onto the substrate 9 transferred, on which you as soon as they move on

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catches.

It is an advantage of the device according to the invention that the substrate to be coated, for example from a heat-sensitive Plastic can exist, not with the heated, possibly very high temperature heating roller 1 comes into contact. Since the pad 9 is also not passed through the supply 4, it is possible to use this supply 4 to bring a temperature which is higher than the temperature absolutely necessary for the application. This allows the The homogeneity of the melt can be increased. During transport on the coating roller 2, the melt is then cooled by the Roll 2 brought to the optimum temperature for coating. The melt can also, if necessary, through the roller 2, which can optionally also be heated, heat can be supplied.

Another advantage of the device according to the invention is that the entire surface of the base 9 is coated can be. Since the surface to be coated is not passed through the storage space 4, there is no risk that the melted Material flows over the edges of the mat and under the mat. In the device according to the invention it is rather the case that the base of the coating roller 2 removes the molten material precisely across the width, which corresponds to its own width. The remaining melted material is removed from the coating roller 2 again returned to the storage room 4. The lateral boundary surfaces 11 and 12, which allow the supply 5 to emerge from the side Prevent from the storage space 4, always remain arranged on the front sides of the rollers 1 and 2. In Fig. 2 is a Base 9 shown, which is as wide as the rollers 1 and 2. But it is the same in the device according to the invention

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possible to coat narrow strips over their entire surface.

The device according to the invention also makes it possible, not only Flexible substrates, such as sheets of paper, plastic films, textiles or the like, to be coated, but also rigid ones Documents such as boards, doors or wall units.

In particular, substrates can be coated with a precisely adjustable, possibly very thin layer thickness, which are very fat themselves. The layer thickness of the applied layer is determined by the size of the gap 3 and is regardless of the thickness of the base. But if the pad - as is the case in previously known devices - through the slot 3 and the storage space 4 must be guided, then the slot must be as wide as the thick pad and the thin layer are together. This makes it very difficult in such devices to set the layer thickness exactly, because the layer thickness results from the difference between the great thickness of the base and the slightly larger gap width. However, a small difference in large sizes is known can be set very imprecisely and kept constant.

With the device according to the invention, for example, heat-sensitive Coat plastic foils with a hot melt adhesive layer without losing their shape due to the hot melted material change, and put in a subsequent device with the help of a sheathing mechanism directly around a profile strip and stick on.

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Claims (6)

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u - 150 Patent claims: ί 1.j Device for applying hot melted materials, in particular hot melt adhesive, to advanced surfaces, in which the hot melted material is continuously introduced as a supply into the gap between a first, heated, stationary roller and a second, rotating roller and the surface on the second roller is passed, characterized in that the second roller (2) from the supply (5) is constantly wetted with hot-melted material and the transfer of the material takes place by contact between the second roller (2) and the surface to be coated at a point which is spatially separated from the supply (5). 2. Apparatus according to claim 1, characterized in that the second roller (2) can optionally be cooled or heated. 3. Device according to claims 1 or 2, characterized in that that the jacket of the second roller (2) made of metal or elastic material, in particular made of silicone rubber, consists. 4. Device according to one of claims 1, 2 or 3, characterized in that that the width of the rollers (1, 2) and the supply (5) is at least equal to or greater than the width of the surfaces to be coated. 5. Device according to one of claims 1 to 4, characterized in that that the supply (5) by on the end faces of the rollers (1, 2) arranged boundary surfaces (11, 12) in the Nip (3) is held. 509812/1077 A 40 287 m u -150 6. Device according to one of the preceding claims, characterized in that the distance between the rollers (1, 2) is adjustable is. 509812/1077 Leerfeite