EP-4739511-A1 - PROCESS FOR DECORATIVE PRINTING OF THE SURFACES OF PANELS FOR FALSE CEILINGS AND/OR WALLS

EP4739511A1EP 4739511 A1EP4739511 A1EP 4739511A1EP-4739511-A1

Abstract

A process for decorative printing on the surfaces of panels for false ceilings and/or walls, in particular on panels made of fibrous, deformable, and porous materials such as rock wool, glass wool, and the like, which comprises, once the decorative graphics have been created and the necessary printing tests have been conducted, the following fundamental steps in the order shown: - preparation, if necessary, or chroming of the surface of the panel (3) to be decorated; - arrangement of the panel to be decorated (3) inside a jig (5), which is shaped to fit perfectly, on top of the surface of the printing bed of a UV printing machine; - treatment, if necessary, of the surface to be decorated by wiping with a microfibre cloth dampened with demineralised water; - performance of the UV printing.

Inventors

COSENTINO, Nunzio

Assignees

Cerexpo S.r.l.

Dates

Publication Date: 20260513
Application Date: 20240628

Claims (1)

CLAIMS 1). A process for decorative printing on the surfaces of panels for false ceilings and/or walls, on panels made of various types of materials, including metal materials and in particular of fibrous, deformable, and porous materials such as rock wool, glass wool, plasterboard and the like, characterised by the fact that, once the decorative graphics have been created and the necessary UV printing tests have been conducted, the said process comprises the following fundamental steps in the order shown: a) preparation, if necessary, or chroming of the surface of the panel (3) to be decorated; b) arrangement of the panel to be decorated (3) inside a jig (5), which is shaped to measure, on top of the surface of the printing bed of a UV printing machine; c) treatment, if necessary, of the surface to be decorated by wiping with a microfibre cloth dampened with demineralised water; d) performance of the UV printing; the jig (5) being made of black PVC foam and having a thickness of approximately 8 mm; the UV printing being performed using a UV printer by arranging the panel to be printed (3), framed by a jig (5), on a suction support surface (2) above which the print heads (4) operate, the said print heads having nozzles positioned at a preset distance, of between approximately 1.6 and 2.2 mm, from the surface of the panel to be decorated. 2). A process according to Claim 1 , characterised by the fact that the jig (5) is shaped to measure so as to contain the panel (3) to be decorated.

Description

PROCESS FOR DECORATIVE PRINTING OF THE SURFACES OF PANELS FOR FALSE CEILINGS AND/OR WALLS DESCRIPTION The invention relates to a process for decorative printing on the surfaces of panels for false ceilings and/or walls. Specifically, but not exclusively, the invention is aimed at panels made of fibrous, deformable, and porous materials such as rock wool, glass wool, and the like and specifically, but not exclusively, it can be advantageously used for printing panels that perform technical functions, such as noise and temperature insulation, which are commonly used in the construction of modular false ceilings. These panels are made of various types of materials such as rock wool, glass wool, and the like, foamed plastic materials, plasterboard, and also metal materials. Commonly known false ceiling panels are normally a uniform white or natural colour, as they are designed to address purely technical rather than decorative issues. The first decorative printing tests were carried out on plasterboard panels. Use of this media has led to certain problems arising, which must be solved, including the possible - and frequent - presence of breakages inside the body of the panel, which only appear when handling the said panel during the decoration process, and which make the panel unusable, forcing the rejection thereof from the production cycle. Another drawback is attributable to the fragility of the surface of the said plasterboard panels, which are easily damaged during any stage of the handling process and/or during transportation, with small parts coming away, thereby ruining the decoration. Furthermore, the use of panels made of materials other than plasterboard, such as rock wool panels (which are also functionally suitable for making false ceilings and the like), poses various types of problems, including, with respect to plasterboard panels, the fact that they have a less white, high-porosity and therefore more absorbent, non-planar surface which on the one hand guarantees good breathability, but on the other can create serious issues during processing since the printing process involves positioning the panels on a suction surface to keep them stationary and planar. The object of this invention is to overcome the problems described above, giving rise to a process for high-resolution printing on the surfaces of panels made of elastically deformable and/or porous materials such as rock wool, foamed plastic materials, plasterboard, and the like, as described below, as illustrated in the appended drawings, and as claimed. Further characteristics and advantages of the present invention will emerge more clearly in the description that follows of a preferred but not exclusive embodiment illustrated, in the form of a nonlimiting example, with the aid of the appended drawings, in which: - Figure 1 shows a schematic top-down plan view of an embodiment concerning the implementation of a stage of the process; - Figure 2 shows a schematic sectional view taken according to plane line l-l in Figure 1 . With reference to the aforesaid figures, 1 schematically denotes the upper part of the frame of a UV printing machine hosting a suction support surface 2, which constitutes the work surface, arranged to support various panels 3 and keep them positioned during the printing operation. The latter is performed by a print head 4 which slides along the bar 7. In this case, the panel to be printed consists of a rock wool panel 3 for false ceilings, which delivers good performance in terms of temperature and noise insulation and fire resistance, but has characteristics including elastic deformability and porosity. To overcome the problems caused by the aforesaid characteristics, the panel is inserted, inside a perfectly sized jig 5, which is black in colour or in any case is a colour which does not reflect ultraviolet radiation onto the print heads, to prevent catalysis of the inks coming out of the said heads and consequently clogging of the ink outlet holes. The use of UV inks guarantees a very high graphic rendering without obstructing the pores of the panel 3 without altering the breathability thereof, which is an essential characteristic for a rock wool panel with advanced technical performance. The printer employed utilises micro-drop ink transfer technology and is equipped with a suction support surface 2, which holds the panel inside the jig 5, and a print head 4 equipped with a UV lamp. The print head 4 is moved, during printing, in a transversal direction 6 to the printing bed and in a longitudinal direction to the bar 7, which operates at a distance h from the surface to be decorated of between approximately 1.6 and 2.2 mm (for products that are designed for digital printing, as a rule, the distance of the head from the surface is 1 .2 mm). The description set out above concerns part of the entire process, which is divided into the following fundamental stages once the decorative graphics have been created and t