Device and method for producing floor panels

Stock material or miscellaneous articles – Structurally defined web or sheet – Including variation in thickness

Reexamination Certificate

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C428S058000, C428S083000, C428S132000, C428S192000

Reexamination Certificate

active

06761961

ABSTRACT:

The invention relates to a device and a method for pressing a layer system for the production of panels. The invention also relates to panels produced in accordance with the method.
BACKGROUND
A panel, known from the publication EP 090 6994 A1, for example, is an elongated, thin plate which can be joined laterally to other panels, for instance by way of tongues and grooves. Panels joined together in this way are used in particular as a floor covering.
Panels are produced according to the prior art by means of a short-cycle pressing process as follows. A base plate is laid on top of a film-like layer impregnated with resin which is called “counteracting paper”. Another film-like layer impregnated with resin and provided with a pattern is laid on top of this. A layer of this kind is known by the name of “decorative paper”. A next film-like layer containing corundum and resin is applied to the decorative layer. This layer is known by the name of “overlay”. The overlay enables the desired hardness of the surface of a panel to be obtained. The aforementioned layer system is gripped together at the edge with gripping means and conveyed into a press. The press essentially consists of two plates arranged parallel to one another which are heated to about 200° C. The layer system is laid on top of the lower of the two plates. The upper plate is then lowered so that the layer system is compressed. The resins melt as a result of the heat supplied via the plates. The upper plate is then raised. Grippers with suction cups are moved over the compressed layer system and lowered. The suction cups are placed on the layer system and become firmly attached by suction. With the aid of the firmly attached suction cups the layer system is lifted and conveyed out of the press. Panels are cut from this layer system using appropriate devices, the panels usually being about 1200 to 1300 mm long, five to twelve millimetres thick and about 200 mm wide. Finally, the panels generally also have tongues and grooves as a consequence of a milling operation. Panels are joined together via tongue and groove. They then form floor coverings or wall claddings.
The joined panels are fitted together, for instance to form a floor covering which is known by the name of laminated flooring.
A drawback of a flooring of this kind is that it has a relatively large number of joints or seams between the panels. On the one hand, these joints are undesirable for aesthetic reasons. On the other hand, over the course of time gaps or cracks are left or form via which moisture and dirt may penetrate. Moisture damages the panels. Dirt spoils the appearance and also makes them unhygienic.
The number of joints could be considerably reduced if the panels were to have a greater width substantially above 200 mm. For production reasons, however, it is not possible at the present time to produce panels which have the required quality.
The problem in production is the supply of heat at different times. When the layer system specified in the introduction is laid on top of the lower hot pressing plate, heat is supplied from beneath and the contiguous resin melts. During this time the resin on the upper surface remains solid. Also, after the pressing operation the supply of heat from above is discontinued sooner as the layer system is still for the time being resting on the lower plate. The resin in the upper regions of the panel accordingly hardens more rapidly. Overall, these differences result in slight bulges which the layer system shows after leaving the press.
The aforementioned bulges are particularly clearly visible in the flooring if the panel is particularly wide. To avoid this undesired visual effect, panels are usually made appropriately narrow.
SUMMARY OF THE INVENTION
The object underlying the invention is to avoid the number of joins in a flooring composed of panels.
The object is achieved with the aid of a device with the features of the first claim. A method for achieving the object comprises the features of the independent claim. The product produced according to the method comprises the features of the claim directed at the panel.
The device comprises gripping means to grip a layer system of the type specified in the introduction and convey it between two plates of a press. The presses are brought to operating temperature via heating means. Moving means are also provided to move the two plates into contact with the layer system at the same time and to press it. The position of the pressing plates relative to the position of the gripping means is selected so that the gripping means cannot get between the pressing plates. After sufficiently long pressing, the pressing plates are moved simultaneously away from the layer system. The now pressed layer system is then processed further in the known manner.
In the device according to the invention the heat is supplied at the same time. Melting or hardening of the resins at different times does not apply. The corresponding deformations are thereby avoided. It is thus possible to produce panels of very good quality which are considerably wider than conventional panels.
The dimensions of the panels which can now be produced with the required quality are in the order of above 300 mm in width. Dimensions above 600 mm still have the desired quality. However, these widths can no longer be sufficiently easily handled with the conventional lengths of up to 2000 mm. Dimensions above 600 mm are therefore no longer sensible if the average consumer represents the target group. Dimensions of 380 to 400 mm are advisable as this corresponds to double the width of conventional panels.
The problem of the bulges described in the introduction solely concerns thin panels. By these are meant in particular panels which are up to 12 mm thick. The thicker the panels are, the less the surfaces distort during production in which the heat supply from one side starts a few seconds earlier than the supply from the other side. Panels which are thinner than 5 mm are too fragile. A thickness of at least 5 mm should therefore expediently be observed as the lower limit.
The temperature applied to the top side of the layer system during the pressing may differ from the temperature applied from the underside. This is generally the case when different resins with different melting points are used. The particular operating temperature which is applied from below or above should be adapted to the particular melting point. Temperature differences of at least 10% are regularly necessary in order to maintain the desired good result. Temperature differences above 10° C. are typical, particularly above 20° C. Optimum temperatures may be obtained in each individual case by means of a few trials.
Of course it is not absolutely necessary for the production of the wide panels that the panels according to the invention have the specified design features. The essential point is that the conventional two-sided heat supply is not performed with a time lag of a few seconds. This applies both to the beginning and to the end of the supply. Melting or re-solidifying of the resins at different times is thus avoided. Moreover, in many cases it is necessary to intend different temperatures for the upper side and under side of a panel when pressing. Bulges caused by production are considerably reduced.
The temperatures during the combined supply of heat and pressure are generally between 150 and 220° C. The temperature prevailing on the upper side may differ from the temperature prevailing on the underside by 20° C., for example.
When panels are laid on a floor, any unevenness of the floor is transferred to the flooring composed of the panels. Unevenness of this kind may occur as a result of grains of sand or small stones which have undesirably got between the floor and the panels laid on top. In such cases, the joints, i.e. the joins between the panels, are subjected to strong tensile forces. The wider a panel is, the stronger such tensile forces are due to leverage forces. Panels manufactured according to the invention having a width of mor

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