PROCESS FOR THREE-DIMENSIONAL PRINTING, PARTICULARLY FOR THE PRODUCTION OF WINDOWS, PLATE-SHAPED ELEMENTS FOR FLOORS OR THE LIKE

Abstract

The process for three-dimensional printing, particularly for the production of windows, plate-shaped elements for floors or the like, comprises: a supply step of PVC and of a solvent in which the PVC is soluble; a mixing step of the PVC and of the solvent to obtain a mixture in the liquid phase; a distribution step of the mixture onto a deposition surface (1); an evaporation step of the solvent for obtaining a layer of PVC (2) of a manufactured article (3), wherein the evaporation step is subsequent to the distribution step; and repeating the distribution step and the evaporation step to obtain a plurality of overlapping layers of PVC (2) forming the manufactured article (3).

Claims

1) Process for three-dimensional printing, particularly for the production of windows, plate-shaped elements for floors or the like, wherein said process comprises: at least one supply step of PVC and of at least one solvent in which said PVC is soluble; at least one mixing step of said PVC and of said solvent to obtain at least one mixture in the liquid phase; at least one distribution step of said mixture onto at least one deposition surface (1); at least one evaporation step of said solvent for obtaining at least one layer of PVC (2) of at least one manufactured article (3), said evaporation step being subsequent to said distribution step; and repeating said distribution step and said evaporation step to obtain a plurality of said overlapping layers of PVC (2) forming said manufactured article (3).

2) Process according to claim 1, wherein said manufactured article (3) is a decorative surface portion of a profiled element (4a) for window frames.

3) Process according to claim 1, wherein said manufactured article (3) is a decorative surface portion of a plate-shaped element (4b) adapted to be used as a floor covering.

4) Process according to claim 1, wherein said solvent is at least one of a ketone and an ether.

5) Process according to claim 1, wherein said solvent is at least one of a cyclic ketone and a cyclic ether.

6) Process according to claim 1, wherein said solvent is at least one of cyclohexanone and tetrahydrofuran.

7) Process according to claim 1, wherein said mixture comprises said solvent in a percentage by weight with respect to said PVC so that the viscosity of said mixture is equal to a fixed value.

8) Process according to claim 1, wherein said process comprises at least one supply step of at least one distribution assembly (5) comprising: at least one distribution head of said mixture onto said deposition surface (1); and at least one removal and recovery system (7, 8) of said evaporated solvent.

9) Process according to claim 8, wherein said distribution assembly (5) comprises at least one mixing unit (6) of said PVC and of said solvent.

10) Process according to claim 1, wherein said process comprises at least one definition step of the superficial shape of said manufactured article (3) comprising: at least one supply step of at least one image (9) in digital format reproducing at least one wooden surface portion provided with a plurality of grains (10), comprising a plurality of pixels; at least one identification step of at least one color range datum of each of said pixels by means of at least one software; and at least one transformation step of said color range datum into at least one depth spatial datum to produce at least one three-dimensional digital model of said manufactured article (3) with material effect provided with at least one outer surface (11) reproducing said grains (10) by means of a plurality of grooves (13) having variable depth; said distribution step taking place in such a way as to produce a three-dimensional printing of said model to obtain said manufactured article (3) with material effect by means of said distribution assembly (5).

11) Process according to claim 10, wherein comprises at least one painting step of said outer surface (11) by means of at least one paint (14), said paint (14) accumulating in said grooves (13) and reproducing said color range of said grains (10).

12) Process according to claim 10, wherein the depth of said grooves (13) is substantially proportional to said color range of said grains (10).

Description

BRIEF DESCRIPTION OF THE INVENTION

[0026] Other characteristics and advantages of the present invention will become more evident from the description of a preferred, but not exclusive embodiment of a process for three-dimensional printing, particularly for the production of windows, plate-shaped elements for floors or the like, illustrated by way of an indicative, but non-limiting example, in the attached drawings in which:

[0027] FIGS. 1 to 3 schematically show the phases of the three-dimensional printing process according to the invention;

[0028] FIG. 4 is an axonometric view of the manufactured article obtained by means of the process according to the invention;

[0029] FIG. 5 is an axonometric view of an alternative embodiment of the manufactured article obtained by means of the process according to the invention.

[0030] FIG. 6 is a sectional view of a detail of the manufactured article of FIG. 4 obtained by means of the process according to the invention.

EMBODIMENTS OF THE INVENTION

[0031] The process for three-dimensional printing, particularly for the production of windows, plate-shaped elements for floors or the like comprises: [0032] at least one supply step of PVC and of at least one solvent in which the PVC is soluble; [0033] at least one mixing step of PVC and of the solvent to obtain at least one mixture in the liquid phase; [0034] at least one distribution step of the mixture onto at least one deposition surface 1; [0035] at least one evaporation step of the solvent for obtaining at least one layer of PVC 2 of at least one manufactured article 3, which is subsequent to the distribution step.

[0036] According to the invention, the process also comprises repeating the distribution step and the evaporation step to obtain a plurality of overlapping layers of PVC 2 forming the manufactured article 3.

[0037] Usefully, the manufactured article 3 obtained by means of the process is a decorative surface portion of a profiled element 4a for window frames or, alternatively, a decorative surface portion of a plate-shaped element 4b adapted to be used as a floor covering, each provided with a deposition surface 1 and preferably made of PVC.

[0038] In other words, the process is particularly suitable for the decoration and surface finishing of traditional PVC profiles, although the possibility of applying the process for the production of the entire profiled element 4a or of the entire plate-shaped element 4b cannot be ruled out.

[0039] PVC, or polyvinyl chloride, is a thermoplastic polymer with high strength and high elasticity, as well as resistant to contact with acids, alkaline and saline solutions, both diluted and concentrated, light, robust, insulating and with low gas permeability.

[0040] It is, therefore, a material with remarkable characteristics, which can be used for countless uses, but which can hardly be used in traditional three-dimensional printing techniques.

[0041] During the production of PVC according to its intended use and the characteristics required of the material, additives are added to PVC, so by varying the type and dose of these additives, it is possible to obtain a material with totally different characteristics.

[0042] In particular, typical additives that are added to PVC during manufacture are stabilizers to protect it from thermal degradation and improve its resistance to light and atmospheric agents, plasticizers to give the product flexibility and elasticity, lubricants to facilitate processing, pigments for coloring, etc. Usefully, the solvent used for the production of the mixture is at least one of a ketone and an ether.

[0043] In fact, although PVC is a rather inert material, it is soluble in some organic solvents, including ketones and ethers, which have on the one hand a physical action of softening polymer pellets and on the other a chemical action on the bonds of Van der Walls existing between macromolecules, bringing them into solution.

[0044] Preferably, the solvent is at least one of a cyclic ketone and a cyclic ether, in particular cyclohexanone and tetrahydrofuran, which can be used individually or in mixture with each other and which are solvents particularly suitable for dissolving PVC, although the possibility of using different types of solvent cannot be ruled out.

[0045] The solvent contained in the mixture distributed on the deposition surface 1 causes the PVC from which the profiled element 4a and/or the plate-shaped element 4b is made to undergo a surface softening.

[0046] Such softening action permits improving the adhesion of the layers of PVC 2 to the deposition surface 1, making it receptive, so that the manufactured article 3 is a single block with the element on which it is distributed.

[0047] The mixture obtained in the mixing step of the PVC and of at least one of the solvents is a liquid mixture, which can therefore be distributed on the deposition surface 1 in a simple way.

[0048] The evaporation step of the solvent substantially takes place immediately after the distribution step of the mixture.

[0049] Furthermore, the evaporation step of the solvent can be natural or forced.

[0050] In particular, in the case of forced solvent evaporation, it is possible to provide an evaporation device associated with the distribution assembly 5, such as e.g. a hot air blower, an infrared lamp or another heating element, which allows the solvent evaporation step to be accelerated so as to immediately follow the deposition step.

[0051] In fact, as soon as the mixture is distributed on the deposition surface 1, the solvent immediately tends to evaporate because of its high volatility, allowing the layer of PVC 2 to be obtained without the need for further solidification steps of the distributed material.

[0052] Advantageously, the process comprises at least one supply step of at least one distribution assembly 5 comprising: [0053] at least one distribution head of the mixture onto the deposition surface 1; and [0054] at least one removal and recovery system 7, 8 of the evaporated solvent.

[0055] Furthermore, the distribution assembly 5 comprises at least one mixing unit 6 of PVC in the form of pellets and of the solvent to obtain the mixture.

[0056] Furthermore, the possibility cannot be ruled out of adding to the mixture at least a reinforcing material, which is added to the PVC and to the solvent during the mixing phase in order to make the layer of PVC 2 more resistant and increase its mechanical properties.

[0057] Alternatively, an auxiliary head may be provided to allow the deposition of the reinforcing material only.

[0058] Preferably, the reinforcing material is in the form of fiber, although the possibility of using materials in a different form cannot be ruled out.

[0059] An example of a material in fiber form to be used is glass fibers, although different types of fibers can be used.

[0060] Such solution could be particularly convenient in the case where the profiled element 4a or the plate-shaped element 4b is made entirely by means of the distribution of the mixture containing PVC.

[0061] In the case of the profiled element 4a, it is also possible to achieve an internal geometry different from those commonly provided, e.g., a honeycomb geometry which, together with the presence of reinforcing material, makes it possible to increase the mechanical properties of the profiled element 4a, in particular its mechanical strength.

[0062] Preferably, the distribution head is movable along a plurality of directions on a two-dimensional Cartesian plane substantially parallel to the deposition surface 1 for the distribution of the mixture to obtain a plurality of layers of PVC 2 depending on the final conformation desired.

[0063] Since this mixture is distributed on the deposition surface 1 by means of the distribution head, its viscosity must be equal to a value established in order to allow simple and easy distribution, even if a different shape of head is used.

[0064] In particular, the mixture comprises the solvent in a percentage by weight with respect to the PVC so that the viscosity is equal to the fixed value.

[0065] Furthermore, as seen above, PVC may have different characteristics as the additives contained in it vary and, therefore, the percentage by weight of the solvent may vary from time to time together with any variation in the polymer load, so that the viscosity of the obtained mixture is always equal to the established value.

[0066] The possibility cannot be ruled out of providing the distribution assembly 5 with a system for dosing the solvent from time to time along with the variation in type of PVC used and in the additives contained in it.

[0067] The solvent used to produce the mixture is toxic and highly flammable.

[0068] In particular, tetrahydrofuran forms highly explosive mixtures with air, is highly toxic in the event of oral contact and highly irritating in case of dermal and respiratory contact.

[0069] As regards cyclohexanone, this is a substance which also forms explosive mixtures with air, is corrosive and highly toxic, causing convulsions, hypothermia and bradycardia.

[0070] In both cases, these substances are also highly harmful to the environment.

[0071] For these reasons, the distribution assembly 5 is housed in a booth in controlled atmosphere, which prevents the dispersion of toxic vapors of the evaporated solvent during the processing phases and in such a way as to protect the operators from any intoxication.

[0072] The evaporated solvent is therefore recovered through the removal and recovery system 7, 8, which, by means of an extraction hood 7, extracts the air in the booth and, through a recovery unit 8, collects the evaporated solvent, sending it back to the mixing unit 6 in order to avoid the continuous supply of new solvent and optimize production costs.

[0073] Advantageously, the process comprises at least one definition step of the superficial shape of the manufactured article 3 comprising: [0074] at least one supply step of at least one image 9 in digital format reproducing at least one wooden surface portion provided with a plurality of grains 10, comprising a plurality of pixels; [0075] at least one identification step of at least one color range datum of each of the pixels by means of at least one software; and [0076] at least one transformation step of the color range datum into at least one depth spatial datum to produce at least one three-dimensional digital model of the manufactured article 3 with material effect provided with at least one outer surface 11 reproducing the grains 10 by means of a plurality of grooves 13 having variable depth.

[0077] Within the scope of this treatise, color range means the color intensity of each pixel in image 9, with reference to every possible color, including black and white.

[0078] As a result, the software used allows identifying the color range datum for any image 9 in digital format whether it is in color, black and white or gray.

[0079] In particular, the depth of the groove 13 present on the outer surface 11 is substantially proportionate to the color range of the grains 10.

[0080] The software used by means of a processing unit 12, therefore, allows the production of a three-dimensional digital model provided with grooves 13 having a depth which increases along with the intensity of the color range of the pixels relating to the single grain 10.

[0081] This way the surface finishing of the manufactured article 3 is such as to reproduce the material effect from both the tactile and visual point of view.

[0082] The distribution step allows producing the three-dimensional digital model to obtain the manufactured article 3 with material effect by means of the distribution assembly 5.

[0083] Usefully, the process comprises at least one painting step of the outer surface 11 by means of at least one paint 14, subsequent to the definition step of the surface shape of the manufactured article 3.

[0084] In particular, the paint 14 used can be in liquid and/or powder form.

[0085] Such paint 14 tends to accumulate inside the grooves 13 reproducing the color range of the grains 10.

[0086] This way, the surface shape of the manufactured article 3 can be defined, recreating a material effect which is credible not only from the point of view of surface finishing, but also from the chromatic point of view, inasmuch as the paint 14 that accumulates in the grooves 13 allows recreating the chiaroscuro typical of grains 10 of wood.

[0087] In has in practice been ascertained that the described invention achieves the intended objects.

[0088] In this regard, the fact is underlined that the particular solution of providing a process for three-dimensional printing, particularly for the production of windows, plate-shaped elements for floors or the like, permits creating manufactured articles having various geometries using a high-strength polymeric material, such as PVC.

[0089] Again, this process also makes it possible to produce a manufactured article using three-dimensional printing and using simple apparatuses with a reduced number of processing steps, with a significant reduction in production costs and processing times.

[0090] Furthermore, the particular solution of providing the mixing of PVC and a solvent to obtain a liquid mixture permits making the PVC manufactured article with material effect while avoiding various solidification steps.

[0091] Moreover, the particular solution of providing a definition step of the surface shape of the manufactured article and a subsequent painting step allows the material effect to be obtained in a credible way without the use of complex decorative techniques.