METHOD OF MAKING A SINK FROM CERAMIC MATERIAL SLABS

Abstract

The invention relates to a method of making a sink comprising: cutting out material that will constitute a bottom of the sink; making a hole for a drain in the bottom of the sink; supporting the edges of the bottom of the sink on a flat support and applying a mechanical force on the rim of the hole for the drain in the bottom of the sink; subjecting the bottom of the sink to a gradual and stepwise heating such that the mechanical force applied deforms said surface; cooling a flat slab; placing additional flat slabs around the first slab, on the sides thereof, to constitute the sides of the sink; externally coating the assembly made with a reinforcement comprising resins, glass fiber, mineral fillers, etc.; and bonding the upper part of the assembly made with the countertop where the sink is located.

Claims

1. A method of making a sink from flat, low-porosity, compact porcelain ceramic material slabs, characterized in that it comprises the following steps: a first step consisting of cutting out the material that will constitute the bottom of the sink; a second step consisting of making the hole for the drain in the bottom of the sink; a third step consisting of supporting the edges of the bottom of the sink on a flat support and applying a mechanical force on the rim of the hole for the drain in the bottom of the sink; a fourth step consisting of subjecting this flat slab forming the bottom of the sink to a gradual and stepwise heating until reaching a heating temperature greater than the annealing temperature and less than the melting temperature of the compact ceramic material, without the physical or chemical properties of said material changing, such that the mechanical force applied on the rim of the hole for the drain in the bottom of the sink deforms said surface, a continuous surface inclined towards the drain being obtained; a fifth step consisting of cooling the flat slab constituting the bottom of the sink with the new shape it has taken on, consisting of cooling performed in a gradual and stepwise manner until reaching room temperature, preventing residual stresses of the material used; a sixth step consisting of placing additional flat slabs around the slab constituting the bottom of the sink, on the sides thereof, to constitute the sides of the sink, being bonded together by bonding means; a seventh step consisting of externally coating the assembly made with a reinforcement consisting of resins, glass fiber, mineral fillers, etc., increasing the strength of the sink made; and a last step consisting of bonding the upper part of the additional slabs, constituting the side body of the sink, to the edges of the opening in the countertop where the sink is located.

2. The method of making a sink from flat, low-porosity, compact porcelain ceramic material slabs according to claim 1, characterized in that the heating temperature is less than 900 C.

3. The method of making a sink from flat, low-porosity, compact porcelain ceramic material slabs according to claim 1, characterized in that the ceramic material comprises a percentage by weight of glassy phase comprised between 40% and 85%, has a density comprised between 2.3 and 3.0 g/cm.sup.3, and has an internal porosity less than 4% by volume.

4. The method of making a sink from flat, low-porosity, compact porcelain ceramic material slabs according to claim 1, characterized in that the bonding means are formed by a resin.

5. The method of making a sink from flat, low-porosity, compact porcelain ceramic material slabs according to claim 1, characterized in that the bonding means are formed by an adhesive with a color similar to the color of the first slab and the additional slabs.

6. The method of making a sink from flat, low-porosity, compact porcelain ceramic material slabs according to claim 1, characterized in that the placement of additional flat slabs around the slab constituting the bottom of the sink, on the sides thereof, to constitute the sides of the sink, being bonded together by bonding means, is performed by means of a mold having rounded edges where the pieces that will constitute the sink are supported in an appropriately separated manner, said separation between pieces being filled in by means of bonding adhesives or resins which acquire the rounded shape of said mold once dried.

7. A sink made of a low-porosity, compact porcelain ceramic material for a countertop having an opening suitable for the location of the sink therein, made by means of the method defined in claim 1.

8. The method of making a sink from flat, low-porosity, compact porcelain ceramic material slabs according to claim 2, characterized in that the ceramic material comprises a percentage by weight of glassy phase comprised between 40% and 85%, has a density comprised between 2.3 and 3.0 g/cm.sup.3, and has an internal porosity less than 4% by volume.

9. The method of making a sink from flat, low-porosity, compact porcelain ceramic material slabs according to claim 8, characterized in that the bonding means are formed by a resin.

10. The method of making a sink from flat, low-porosity, compact porcelain ceramic material slabs according to claim 9, characterized in that the bonding means are formed by an adhesive with a color similar to the color of the first slab and the additional slabs.

11. The method of making a sink from flat, low-porosity, compact porcelain ceramic material slabs according to claim 10, characterized in that the placement of additional flat slabs around the slab constituting the bottom of the sink, on the sides thereof, to constitute the sides of the sink, being bonded together by bonding means, is performed by means of a mold having rounded edges where the pieces that will constitute the sink are supported in an appropriately separated manner, said separation between pieces being filled in by means of bonding adhesives or resins which acquire the rounded shape of said mold once dried.

12. A sink made of a low-porosity, compact porcelain ceramic material for a countertop having an opening suitable for the location of the sink therein, made by means of the method defined in claim 11.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0039] For the purpose of helping to better understand the features of the invention according to a preferred practical embodiment thereof, a series of drawings is provided as an integral part of said description in which the following has been depicted with an illustrative and non-limiting character:

[0040] FIG. 1 shows a block diagram of the method of making three-dimensional products from flat, low-porosity, compact porcelain ceramic material slabs for a preferred embodiment of the invention, the shape of the product that is being obtained being shown on one side.

[0041] FIG. 2 shows the process of bonding the bottom of the sink to the side pieces that will constitute the sink by means of a mold which makes it easier to round out the bonding edges of the pieces that will constitute the sink.

DETAILED DESCRIPTION OF A PREFERRED EMBODIMENT OF THE INVENTION

[0042] In view of the drawings, it can be seen how in a preferred embodiment of the invention, the method of making a sink from flat, low-porosity, compact porcelain ceramic material slabs herein proposed comprises the following steps.

[0043] The first step (1) consists of cutting out the material that will constitute the bottom of the sink (10), which material can take on the shape of a square slab, rectangular slab, oval slab, or any other shape suitable for making said sink.

[0044] The second step (2) consists of making the hole (11) for the drain in the bottom of the sink (10), which hole will be made by conventional means such as cutting elements, which will generally allow making a circular hole for the drain. This hole can be made such that it is in the center in said bottom of the sink or it can be shifted towards the edges thereof.

[0045] The third step (3) consists of supporting the edges of the bottom of the sink on a flat support (12) and applying a mechanical force (F) on the rim of the hole (11) for the drain in the bottom of the sink (10), which mechanical force (F) on the material at room temperature has no effect on the material.

[0046] The fourth step (4) consists of subjecting this flat slab forming the bottom of the sink (10) to a gradual and stepwise heating (13) until reaching a heating temperature greater than the annealing temperature and less than the melting temperature of the compact ceramic material, without the physical or chemical properties of said material changing, such that the mechanical force applied on the rim of the hole for the drain in the bottom of the sink deforms said surface, a continuous surface inclined towards the drain (14) being obtained.

[0047] Then, a fifth step (5) of cooling the flat slab constituting the bottom of the sink with the new shape it has taken on takes place, which step consisting of cooling performed in a gradual and stepwise manner until reaching room temperature, preventing residual stresses of the material used.

[0048] The sixth step (6) consists of placing additional flat slabs (15) around the first slab (10), on the sides thereof, to constitute the sides of the sink, and bonding (16) the lower part of the additional slabs with the slab constituting the bottom of the sink and the sides of the additional slabs together by bonding means (16), which bonding means can be resins or adhesives.

[0049] A seventh step consists of externally coating the assembly made with a reinforcement consisting of resins, glass fiber, mineral fillers, etc. (20), increasing the strength of the sink made.

[0050] Finally, a last step consists of bonding the upper part of the additional slabs (15), constituting the side body of the sink, to the edges of the opening in the countertop (17) where the sink is located, which bonding is likewise done with resins or adhesives.

[0051] FIG. 2 shows the process of bonding the bottom of the sink (10) to the side pieces (15) that will constitute the sink by means of a mold (18) which makes it easier to round out the bonding edges of the pieces that will constitute the sink. These edges (19) will be made by means of resins or adhesives which adapt to the curved shape of the mold (18) at those bonding points, preventing sharp edges and preventing grime from building up during normal use of the sink.

[0052] According to a preferred embodiment, the heating temperature of the first step is less than 900 C.

[0053] In a preferred embodiment of the invention, it is preferably considered that the annealing temperature is 750 C. and the melting temperature is greater than 1000 C., so the heating temperature must be comprised between those two values.

[0054] In this preferred embodiment of the invention, it is considered that the heating temperature is less than 900 C. to furthermore assure that the color tones of the product do not fade.

[0055] As the product is not heated at temperatures equal to or greater than the melting temperature, the product does not have to be annealed in order to release stresses, because since said temperatures are not reached, these stresses are not generated.

[0056] On the other hand, in this preferred embodiment of the invention the ceramic material comprises a percentage by weight of glassy phase comprised between 40% and 85%, has a density comprised between 2.3 and 3.0 g/cm.sup.3, and has an internal porosity less than 4% by volume. In this case and in a preferred manner, the percentage by weight of glassy phase is 60%, the density is 2.6 g/cm.sup.3, and it has a porosity of 2%.

[0057] This specification furthermore discloses a sink made of a low-porosity, compact porcelain ceramic material by means of the preceding method.

[0058] The described embodiment is merely one example of the present invention. Therefore, the specific details, terms, and phrases used herein must not be considered as being limiting, but rather they must merely be understood as a basis for the claims and as a representative basis providing a comprehensible description and sufficient information for one skilled in the art to apply the present invention.

[0059] Significant improvements with respect to the state of the art are achieved with the method of making three-dimensional products from flat, low-porosity, compact porcelain ceramic material slabs herein disclosed.

[0060] A process which allows making sinks with this type of low-porosity, compact porcelain ceramic material, with a continuous bottom, i.e., without joints and maintaining all the properties thereof, is thereby obtained. It furthermore allows obtaining these products with shapes that can vary depending on the areas in which the mechanical force is applied.

[0061] The present invention provides a simple, practical, and very effective method.