SANITARY ARTICLE AND METHOD FOR PRODUCING SUCH AN ARTICLE

Abstract

A sanitaryware article having a support formed from a cured resin having embedded reinforcing fibers, which defines the shape of the sanitaryware article and which at least on a facing side bears a cured gelcoat layer.

Claims

1. A sanitaryware article, comprising a support which is formed from a cured resin having embedded reinforcing fibers, which defines the shape of the sanitaryware article and which at least on a facing side bears a cured gelcoat layer.

2. The sanitaryware article according to claim 1, wherein the resin of the support is an epoxy resin, a polyester resin, an acrylic resin, a vinyl ester resin or derivatives thereof.

3. The sanitaryware article according to claim 1, wherein the reinforcing fibers take the form of fiber pieces having a length of 1-35 mm and/or a thickness of 10-15 μm, or in that the fibers take the form of fiber mats having a mat weight of 200-600 g/m.sup.2.

4. The sanitaryware article according to claim 1, wherein the reinforcing fibers are glass fibers.

5. The sanitaryware article according to claim 1, wherein plate-shaped or strip-shaped or profile-shaped reinforcing elements are embedded in the support at one or more positions.

6. The sanitaryware article according to claim 5, wherein the or each reinforcing element is made of wood, plywood, laminated wood, a laminate, more particularly a fiber laminate, or metal, or is a fiberboard.

7. The sanitaryware article according to claim 5, wherein the one or more reinforcing elements are provided in the region of a base, of a tub or basin portion and/or of an edge region of the support.

8. The sanitaryware article according to claim 1, wherein the gelcoat layer is made of a polyester resin, vinyl ester resin or epoxy resin.

9. The sanitaryware article according to claim 1, wherein the gelcoat layer comprises color pigments and/or an antibacterial agent.

10. The sanitaryware article according to claim 1, wherein the gelcoat layer has a thickness of 0.4-1.5 mm, more particularly of 0.5-1.0 mm, and/or in the support has a thickness of 0.5-12 mm in a region without reinforcing element and 0.5-6 mm in a region with reinforcing element.

11. The sanitaryware article according to claim 1, wherein the area of the support that bears the gelcoat layer has at least in portions a surface structuring which is also reproduced in the gelcoat layer, or the surface is at least in portions delustered.

12. The sanitaryware article according to claim 1, wherein the sanitaryware article is a bath tub or a shower tray.

13. A process for producing a sanitaryware, comprising the steps of: providing a mold and applying a fluid gelcoat material to an area of the mold; curing the gelcoat material to form a gelcoat layer; applying a fluid support material comprising a resin and reinforcing fibers to the gelcoat layer, and also optionally one or more reinforcing elements; curing the support material to form a support; and removing the sanitaryware article from the mold.

14. The process according to claim 13, wherein, for embedding one or more reinforcing elements, first a first partial layer of the support material is applied, after which the one or more reinforcing elements are applied to the first partial layer, after which a second partial layer of the support material, embedding the reinforcing elements, is applied to the first partial layer and to the one or more reinforcing elements.

15. The process according to claim 13, wherein after the demolding, a facing side of the sanitaryware article, formed by the gelcoat layer, is worked.

16. The process according to claim 15, wherein after the demolding, and optionally before the working of the surface, one or more edge portions of the sanitaryware article are worked and are joined, more particularly bonded, to one or more further components.

17. A process for producing a sanitaryware article, comprising the steps of: providing a mold and applying a fluid support material comprising a resin and reinforcing fibers and also optionally one or more reinforcing elements to an area of the mold; curing the support material to form a support; removing the support from the mold; applying a fluid gelcoat material to an area of the support; and curing the gelcoat material to form a gelcoat layer.

18. The process according to claim 17, wherein, for embedding one or more reinforcing elements, first a first partial layer of the support material is applied, after which the one or more reinforcing elements are applied to the first partial layer, after which a second partial layer of the support material, embedding the reinforcing elements, is applied to the first partial layer and to the one or more reinforcing elements.

19. The process according to claim 18, wherein after the formation of the gelcoat layer, a facing side of the sanitaryware article, formed by the gelcoat layer, is worked.

20. The process according to claim 18, wherein after the curing of the gelcoat layer, and optionally before the working of the surface, one or more edge portions of the sanitaryware article are worked and are joined, more particularly bonded, to one or more further components.

21. The process according to claim 13, wherein the gelcoat material is cured at a temperature of 35° C.-55° C. for a time of 5-20 min and the support material is cured at a temperature of 35° C.-55° C. for a time of 1-2 h.

22. The process according to claim 13, wherein the gelcoat material and/or the support material are or is applied by spraying or by means of fine or coarse brush.

23. The process according to claim 13, wherein a support material is used which already comprises fiber pieces, or the fibers are embedded in the form of fiber mats into the support material.

24. The process according to claim 13, wherein the gelcoat material used comprises the following: resin: 85-95 wt % pigment: to 7 wt % antibacterial agent: to 0.5 wt %, and the support material used comprises the following: resin: 40-74 wt % curing agent: 1-5 wt % glass fiber: 10-25 wt % filler: 0-50 wt %.

25. The process according to claim 24, wherein the support material comprises the following: resin: 40-60 wt % curing agent: 1-3 wt % glass fiber: 10-13 wt % filler: 30-50 wt %, or resin: 56-74 wt % curing agent: 1-5 wt % glass fiber: 10-25 wt % filler: 0-30 wt %.

Description

BRIEF DESCRIPTION OF THE DRAWING

[0070] FIG. 1 shows a partial view in section of a sanitaryware article of the invention in a first embodiment,

[0071] FIG. 2 shows a partial view in section of a sanitaryware article of the invention in a second embodiment,

[0072] FIG. 3 shows a partial view in section of a sanitaryware article of the invention in a third embodiment,

[0073] FIG. 4 shows a partial view in section of a sanitaryware article of the invention in a fourth embodiment,

[0074] FIG. 5 shows a flow diagram for elucidating the process of the invention according to a first invention alternative,

[0075] FIG. 6 shows a flow diagram for elucidating the process of the invention according to a second invention alternative, and

[0076] FIG. 7 shows a sectional view of a bath tub of the invention.

DETAILED DESCRIPTION OF THE INVENTION

[0077] FIG. 1 shows a partial view in section of a sanitaryware article 1 of the invention, for example a partial view of a shower tray. The sanitaryware article 1 consists of a support 2 composed of a cured resin with reinforcing fibers embedded therein—this will be addressed below. Besides such fibers, there may also be further fillers, for example sand or glass beads or the like, embedded in the support material matrix.

[0078] FIG. 1 also shows the possibility of embedding in the support 2 or the support material, one or more reinforcing elements 3, which here are strip-shaped or plate-shaped, but may also be profile-shaped or configured in the form of honeycomb structures and the like. The reinforcing elements 3 are completely surrounded by the support matrix, and so are not visible.

[0079] Applied on the support 2 is a gelcoat layer 4, which likewise consists of a cured resin into which, optionally, color pigments have been introduced, so that the facing side 5 of the sanitaryware article is formed via this gelcoat layer, i.e. the hardcoat layer. The gelcoat layer 4 is applied on all areas of the support 2 which are visible in the assembled position of the sanitaryware article 1. On the non-visible back side or underside of the support 2, accordingly no application is required.

[0080] FIGS. 2-4 show different embodiment variants relating in particular to the configuration of the support 2. In FIG. 2, which shows a partial view of the sanitaryware article from FIG. 1, the support 2 is formed via a cured resin matrix or polymer matrix 6 in which in turn a multiplicity of reinforcing fibers are embedded in the form of relatively short fiber pieces 7. These are preferably glass fiber pieces having a length of preferably 1-35 mm, with a preferred thickness of 10-15 μm. The shorter the fiber pieces, the more easy it is to apply the fluid support material, consisting of the fluid resin and the fiber pieces, by spraying.

[0081] FIG. 3 shows an embodiment in which the support 2 consists of the resin matrix or polymer matrix 6 in which a plurality of mats 8, which extend more extensively in the resin matrix or polymer matrix 6, have been introduced as reinforcing fibers. Here, in the course of the production process, first a first, relatively thin partial layer of the fluid support material is applied, by spraying, for example, after which a first or plurality of first fiber mats 8 are placed on; the mat weight is preferably between 200-600 g/m.sup.2. Subsequently, optionally after positioning of a reinforcing element 3, a further partial layer is applied, into which one or more further fiber mats 8 are then pressed, after which, optionally, a further partial layer is applied. In other words, a successive build-up of layers is provided here in order to embed the separate fiber mats 8.

[0082] FIG. 4, lastly, shows a variant in which the support 2 again consists of the resin matrix or polymer matrix 6, but additionally comprises not only relatively short fiber pieces 7 but also a plurality of more extensive fiber mats 8. In this case, then, both fiber variants are employed. The fiber mats are likewise made of glass fiber; the mat weight is preferably between 200-600 g/m.sup.2.

[0083] The gelcoat layer 4 is applied by spray or sprayed application of a corresponding curable gelcoat material. The thickness of the coat after curing is in the range of 0.4-1.5 mm, preferably in the range between 0.5-1.0 mm. Particularly in the case of spray or sprayed application, it is possible to achieve a very uniform layer thickness, since the fluid gelcoat material can be sprayed easily, being a coating system which can be applied using a corresponding spray gun or the like.

[0084] FIG. 5 shows a flow diagram for elucidating a first process variant of the invention. In step a, first, a mold which dictates the shape of the sanitaryware article is provided, cleaned and sealed if necessary. In step b, first, the fluid gelcoat material is applied to an area of the mold, preferably by spray or spraying. This gelcoat material is then cured in step c to form the gelcoat layer, which has corresponding mechanical and optical properties.

[0085] Subsequently, with the cured gelcoat layer still located in the mold, the support is formed. Here there are two different process alternatives, namely the first variant, where there is no need to provide one or more reinforcing elements on the support side, or the second variant, wherein one or more reinforcing elements are embedded in the support. The first variant is represented following the arrow I. In this variant, in step d, a fluid support material is applied, preferably here again by spraying, and in the amount needed to form the entire support, to the cured gelcoat layer. The amount of support material is selected so as to produce a layer thickness on the cured support of for example 3-15 mm, more particularly of around 5-12 mm. This means that the support material is formed in one coating pass.

[0086] If, however, one or more reinforcing elements of whatever kind are to be applied, the process takes the form according to arrow II. Here, in a first step d1, a first layer of the support material is sprayed onto the gelcoat layer. In step d2, the one or more reinforcing elements are then positioned appropriately, after which, in step d3, a second layer of the fluid support material is sprayed on, and on the one hand is sprayed onto the first partial layer but on the other hand also completely embeds the reinforcing elements. In this case the thickness of the individual support layers may differ from the support layer of the first variant. In particular, the support layers may be thinner, for example between 0.5 mm to 12 mm, more particularly from around 0.5 mm to 6 mm.

[0087] It may be noted in this case that the support material is firstly provided from the start with corresponding fiber pieces, preferably made of glass fiber, which are therefore sprayed on with it. Alternatively or additionally, it is also conceivable to embed at least one fiber mat or a plurality of separate mat pieces, which for example, after sprayed application of one layer of support material, are placed on and pressed in, or which, after sprayed application of the first partial layer, are placed on and pressed in, and of which a further one is placed on and pressed in after sprayed application of the second partial layer. In step e, the support material is cured, to then form a cured support. At the end of this step e, the sanitaryware article is finished in terms of its fundamental production. It consists of the cured, fiber-reinforced support and also of the applied, thin gelcoat or hardcoat layer.

[0088] In step f, the sanitaryware article is demolded from the mold.

[0089] According to whether the sanitaryware article is a one-piece component, or whether a further component is to be attached to the sanitaryware article thus produced, the further procedure takes on the appropriate form. If the sanitaryware article is finished, then, as represented via the arrow III, there can be surface treatment in step g of the facing area, by sandblasting, grinding or polishing, for example, to generate a non-luster surface, for example. In step h there may additionally be, for example, working of angles or the like, in order to form defined interfaces at points where ultimately there is attachment to the surrounding periphery as part of the assembly procedure.

[0090] In the event that there is a further component such as a skirt or the like, for example, to be mounted on the sanitaryware article demolded in step f, then further working steps are carried out before step g. Accordingly, in step i1, corresponding angles or corners or the like of the sanitaryware article, where the additional component is to be added on, may be appropriately trimmed or sanded, and thus mechanically worked. In step i2, the sanitaryware article and the component are mated exactly with one another, after which they are joined to one another in step i3, preferably via an adhesive resin. With this procedure as well, the steps g and h then follow.

[0091] FIG. 6 shows a process variant in which only a part of the sanitaryware article is generated in the mold; the actual finishing, however, takes place outside the mold.

[0092] Here as well, in the step a′, first the mold is provided and appropriately cleaned and sealed, i.e. prepared. The support is then formed directly in the mold. Here again there are two different variants conceivable, labeled via the arrows I and II. According to variant I, there are no reinforcing elements to be integrated in the support material, and consequently, according to step b′ therein, the entire support material is applied, more particularly by spraying, into the mold, to the corresponding mold area, until the desired layer thickness has been reached. Following the application, the support material is cured in step c′, so that the entire support is formed in the mold.

[0093] Where, however, there are one or more reinforcing elements, governed by the shape of the sanitaryware article, to be embedded in the support, then according to arrow II, in step b′1, first a first partial layer of the support material is applied, more particularly by spraying, after which the one or more reinforcing elements are applied in step b′2. This is followed, in step b′3, by the application of a second partial layer of the support material, which completely embeds the reinforcing elements. In this procedure as well, following application of the second partial layer, the support material is cured in step c′, and so here as well the finished support is then present on the mold side.

[0094] It is the case here as well that on the one hand the support material already includes fiber pieces which are introduced into the fluid resin material and are sprayed with it. Additionally or alternatively, as already described, corresponding fiber mats may also be inserted.

[0095] In step d′, the support is then removed from the mold. This support then serves, so to speak, as a mold for the application of the gelcoat material.

[0096] Here as well there are again two process variants conceivable, which are represented via the arrows III and IV. They differ again in whether the final sanitaryware article is a one-piece component, or is to have an additional component such as a skirt or the like.

[0097] The arrow III shows the variant wherein the sanitaryware article is a one-piece component. In step e′, the gelcoat material is applied, more particularly by spraying, to the area of the demolded support that defines the facing area of the finished sanitaryware article. The application can be made very exactly with uniform layer thickness, since the resin coating material can be sprayed on readily in finely metered form.

[0098] In step f′ the gelcoat material is then cured. At the end of this curing operation, lastly, the finished sanitaryware article is formed, consisting of the cured support and the cured gelcoat layer.

[0099] In step g′ there can then be a surface treatment following, by sandblasting or polishing or the like, for example; as in step h′ there may be an optional angle trim or the like.

[0100] Where a further component is to be attached, the process train IV is to be looked at. The demolding in step d′ is followed by a step i′1, in which the angles or corners or the like are worked to form defined interfaces on the support. In step i′2, the support and the component are then aligned accordingly exactly with one another and in step i′3 they are joined to one another, preferably by means of an adhesive resin. The curing of the resin is then followed by step e′ with the application of the gelcoat material, etc.

[0101] FIG. 7 shows a sectional view of a sanitaryware article of the invention in the form of a bath tub 9. This bath tub 9 has a base 10, all-round side walls 11 and an all-round tub edge 12. It consists of a support 13 made of fiber-reinforced plastic, in which reinforcing elements 14 are embedded on the base 10 and reinforcing elements 15 on the tub edge 12. Applied on the inside of the support 13 is a gelcoat layer 16 made of a hardcoat material.

[0102] A bath tub 10 of this kind was produced as a test object. The bath tub 10 of the invention was produced using the following materials:

[0103] For the preparation of the mold, Chemlease® 15 Sealer EZ from Chem Trend was used as mold sealant, and Zyvax® WaterShield™ Release Agent from Chem Trend was used as release agent, and they were applied to the casting mold.

[0104] For producing the white gelcoat layer gel, an isophthalic resin suitable for spray application, namely GC 188 Isophtalic Gel Coat from KoverTek, Nord Composites was used.

[0105] The resin used for the support was a commercial unsaturated orthophthalic polyester resin, unwaxed. The resin used was that obtainable under the name Polycoat SLO 180NT from Aekyung Chemical CO., LTD.

[0106] The curing agent used was the curing agent available under the name “Butanox® M-50” from AkzoNobel, an MEKP curing agent.

[0107] The glass fiber used was an E-Glass Multi-End-Roving ERS 240-T132BS, suitable for sprayed application, from CTG Taishan Fiberglass Inc. The length of the fibers was 5 mm-35 mm. The product is a continuous fiber roving, with separation into short fibers taking place only in the fiber spraying process.

[0108] Wood parts were used as reinforcing elements. The wood parts embedded in the base had a thickness of around 15 mm; the wood parts embedded in the tub edge had a thickness of around 10 mm.

[0109] The bath tub of the invention was produced in accordance with the first process variant described above. To start with, the gelcoat material was sprayed onto the mold, after which the material to form the gelcoat layer was cured at a temperature of 45° C. for 15 minutes. Subsequently the support material was sprayed on and was cured at a temperature of 45° C. for 1 h 30 min.

[0110] The thickness of the gelcoat layer on the finished bath tub was between 0.65 mm and 1.1 mm. The typical thickness in regions experiencing little stress, such as the side walls, was around 0.7 mm, the thickness in more greatly stressed regions such as the base was around 0.9 mm, while the thickness in greatly stressed regions such as the tub edge, on which the user often sits or places items of clothing, was 1-1.1 mm.

[0111] The thickness of the support varies locally, dependent both on the particular region of the tub and also on whether a reinforcing element is embedded or not.

[0112] In regions without reinforcing element, the thickness at the side walls is around 4 mm, and on the base between 9-10 mm.

[0113] In regions with reinforcing elements on the tub edge, the thickness of the partial support layer between the gelcoat layer and the reinforcing element is around 1.5 mm, and the partial layer ultimately embedding the reinforcing element has a thickness of around 2.5 mm.

[0114] On the base, the partial support layer between the gelcoat layer and the reinforcing element has a thickness of around 4 mm, whereas the partial layer embedding the reinforcing element has a thickness of around 5 mm.

[0115] For purposes of comparison a comparative bath tub was produced from the “DuraSolid®” material long used by the applicant, from which known bath tubs are produced. The “DuraSolid®” material consists primarily of natural minerals, resin as binder, and color pigments.

[0116] For the production, in a first step, the liquid casting material is introduced into a mold and cured in a drying chamber; in the second step, the solidified bath tub body is dried in a drying oven at temperatures up to 70 degrees. During these drying phases, the material reaches its ultimately curing. The thickness of the tub is around 12 mm in the edge and side regions, around 26 mm at the base.

[0117] The weight is already an indication of distinct differences between the bath tub of the invention and the comparative bath tub. While the comparative bath tub weighs around 160 kg, the bath tub of the invention weighs only around 90 kg, meaning that the weight can be reduced by 70 kg, thus by more than 40%.

[0118] The mechanical stability as well can be improved by virtue of the construction according to the invention. To this end, a drop test was carried out with a drop weight of 435 g. The drop weight was dropped onto the base of the tub from various heights until the base fractured. The comparative bath tub fractured at an already considerable drop height of 2.5 m, whereas the bath tub of the invention fractured only at a drop height of 4 m. Here as well it is possible to achieve a distinct improvement.

[0119] Like the comparative bath tub, the bath tub of the invention as well of course maintained its integrity in the face of the temperature cycling test wherein in accordance with the protocol of DIN EN 14516, the respective bath tubs are exposed in rapid sequence to different temperatures.

[0120] In accordance with DIN EN 14688:2018-12 “Sanitary Appliances—Washbasins—functional requirements and test methods”, scratch tests were conducted. In this case, under a test force of 10 N, no scratch may be deeper than 0.1 mm and/or than the overall depth of the outer layer, depending on which value is lower. The bath tub produced in accordance with the invention, and hence the new material, passed this scratch test.

[0121] While specific embodiments of the invention have been shown and described in detail to illustrate the inventive principles, it will be understood that the invention may be embodied otherwise without departing from such principles.