CONVERTIBLE COIANDER

The present invention relates to a convertible colander, in particular a convertible colander made of an elastic and flexible membrane, equipped with mechanical characteristics that facilitate its use when straining foodstuffs, such as various sizes of pasta, vegetables and rice, avoiding that residues of filamentary foods or foods with reduced sizes get trapped in water draining holes.

The prior art can be ascribed, in particular, to colanders and kitchen tools and, in general, to plastic vessels or products obtained by extrusion or from laminates :

KITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES, (A47J) ;

CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES (B65D) ;

LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM (B32B) .

The prior art of a colander taken as reference is represented by the following documents:

WO-A1-2006/054168: flexible colander, realised through elastomer, elastomer silicone, elastomer silicone obtained through a platinum-catalized cross-linking process, thermoplastic rubber;

US-A1-20030148010: Composite articles for use in cooking, dealing with a colander made of thermoplastic organic polymer impregnated with a cured, heat resistant polymer, comprising silicone rubber, equipped with a slight degree of flexibility); drenched with platinum-catalyzer.

According to the above-stated prior art, a colander equipped with small-diameter draining holes performs the function of straining thin pasta and rice by draining water contained in cooked vegetables, this latter one being easily able to be scaled and amassed. On the other hand, small holes limit water drainage, by being easily clogged with soft pasta, rice and vegetables in general.

A colander equipped with big-diameter draining holes makes it easy to strain big pasta. On the other hand, big holes let thin pasta, rice and cooked vegetables pass, with the risk that traces -of rice and vegetables can easily remain trapped next to holes.

Object of the present invention is solving the physical contradiction emerging from the need of using, under

different conditions and times, big holes and small holes, through a new colander of the convertible type, that is capable of: avoiding the contact of foodstuff with hole edges when draining water; making hole cleaning and washing easier. A variation of the convertible colander, described in the second part of this document, favours water draining respectively through big-diameter holes, in a position, and small-diameter holes, in a second position.

The above and other objects and advantages of the invention, as will appear from the following description, are obtained with a convertible colander according to claim 1. Preferred embodiments and non-trivial variations of the present invention are the subject matter of the dependent claims .

The present invention will be better described by the enclosed drawing figures, that show a non-limiting example of an embodiment of the present invention, and in which: figures 1 and 2 are front sectional and axonometric views of a generic colander; figures 3 and 4 are a view and a detail of the front section of a convex bottom outside a colander, projecting bottom; figures 5, 6A and 6B are a view and a detail of the front section of a convex bottom inside a colander, recessed bottom;

figures 7A and 7B are an axonorαetric view of the extrados surface of the convex bottom respectively inside, recessed bottom, and outside the colander, projecting bottom; figures 8A and 8B are an axonometric view of the intrados surface of the convex bottom respectively inside, recessed bottom, and outside the colander, projecting bottom; figures 9 and 11 are front sectional views of the colander with convex bottom respectively inside, recessed bottom, and outside, projecting bottom; figures 10 and 12 are plan views of the colander with convex bottom respectively inside and outside.

With reference to the figures, a colander 1 is a vessel substantially comprising a bottom 4 connected to a side wall 2 by means of a ring 6. A generic shelf (not shown) supports the lower edge 8 of a pedestal 3, integral with the colander 1 and projecting from the ring 6 or the side wall 2 or the bottom 4; two handles (not shown) project from an upper edge 7 of the side wall 2, or with respect to any height of the side wall 2. A multitude of through-holes 5 are present in the bottom 4 and possibly the side wall 2 or part thereof.

The bottom 4 is delimited: inside the colander 1 by an intrados or internal surface 4in; outside the colander 1 by an extrados or external surface 4out.

The colander 1, containing pasta, rice or vegetables, separates and drain, through the holes 5, the water used for cooking pasta, rice or vegetables.

The bottom 4 comprises a set of grooves 11, arranged concentrically (as shown) or radially (not shown) . The grooves 11 cross the intrados or internal surface 4in. The base of each groove 11 is delimited by a throat 12 along which the through-holes 5 are housed, spaced by a certain pitch. The bottom 4, in case of both concentric (as shown) and radial (not shown) grooves 11, is delimited at its periphery by the grooved edge or ring 6. The thin junction that connects the bottom 4 to the grooved edge or ring 6 makes the bottom 4 flexible and easily deformable as regards a convexity reversal of the bottom 4 with respect to the grooved ring 6, as described in the following paragraphs .

As regards the operation of the colander 1 with convex bottom outside, projecting bottom, there are the following steps : a) in order to reach such configuration, the operator, by operating from inside the colander 1, pushes its bottom 4 outwards. The bottom 4 changes its own shape, rotating with

respect to the grooved ring 6 and appearing according to the drawings in figures 3, 4, 7B, 8B. In particular: the grooves 11 are joined, mutually approaching; the holes 5 keep their circular edge unchanged in the extrados surface 4out; the grooves 11, when approaching, partially cover the holes 5 seen from the intrados surface 4in; b) the operator throws into the colander 1 pasta, rice or vegetables together with -cooking water. Water penetrates inside the intrados surface 4in through the grooves 11, which operate as water straining and conveying channel towards the holes 5 obtained along the throat 12 of each groove 11, collecting on the bottom of grooves 12 and moving along the holes 5. Water reaches the extrados surface 4out when abandoning the colander 1. The approached grooves 11 do not allow the passage of rice grains, pasta, vegetables with a thin or filamentary shape. Pasta, rice or vegetables do not reach the throats 12, remaining supported by the ridges of the intrados surface 4in.

As regards the operation of the colander 1 with convex bottom inside, recessed bottom, there are the following steps: c) in order to reach such configuration, the operator, by operating from outside the colander 1, pushes its bottom 4 inwards. The bottom 4 changes its own shape, rotating with respect to the grooved ring 6 and appearing according to

the drawings in figures 5, 6A, 6B, 7A e 8A. In particular: the grooves 11 are dilatated, move away; the holes 5 keep their circular edge unchanged in the extrados surface 4out; the grooves 11, by moving away, totally uncover the holes 5 seen from the intrados surface 4in; d) the operator performs the cleaning operations of the colander 1 whose shape, due to the dilatated grooves 11, enables reaching and removing wastes of pasta, rice or vegetables trapped into the clogged holes 5 and/or along the throats 12.

According to a variation, the convertible colander 1 provides for a bottom 4 whose intrados surface 4in is free from grooves, thereby appearing as the extrados surface 4out, the ring 6 being neither thin nor grooved, but appearing as full and fitting and tangent with respect to the two surfaces 4in e 4out, as shown in figures 9 and 11.

The through-holes 5 affect the bottom 4 and possibly the side wall 2 or part thereof.

The section of the ring 6 is structurally rigid and stable due to the inertial contribution of converging sections of the pedestal 3 and the side wall 2. The bottom 4 rotates with respect to the ring 6 respectively reaching two structurally stable positions: bottom 4 with convexity:

- outwards, projecting bottom, (figures 11 and 12) ;

- inwards, recessed bottom, (figures 9 and 10) .

As regards the operation of the variation of colander 1 with convex bottom outside, projecting bottom, there are the following steps: e) in order to reach this configuration, the operator, by operating from inside the colander 1, pushes its bottom 4 outwards. The bottom 4 reaches its stable position, rotating with respect to the ring 6 and appearing according to the drawings in figures 11 and 12.

In particular: the intrados or internal surface 4in, by being compressed, makes the holes 5 edges restricted in the intrados surface 4in; the extrados or external surface 4out, by being stretched, makes the holes 5 edges dilatated in the extrados surface 4out; f) the operator throws into the colander 1 pasta, rice or vegetables together with water used for cooking. Water penetrates inside the intrados surface 4in through the restricted edges of holes 5. In the end, water reaches the extrados surface 4out by abandoning the colander 1. The restricted edges of holes 5 do not allow the passage of rice grains or pasta or vegetables with a thin and filamentous shape.

As regards the operation of the variation of colander 1 with convex bottom inside, recessed bottom, there are the following steps : g) in order to reach this configuration, the operator, by operating from outside the colander 1, pushes its bottom 4 inwards. The bottom 4 reaches its stable position, rotating with respect to the ring.6. and appearing according to the drawings in figures 9 and 10.

In particular: the extrados or external surface 4out, by being compressed, makes the holes 5 edges restricted in the extrados surface 4out;

- the intrados or internal surface 4in, by being stretched, makes the holes 5 edges dilatated in the intrados surface 4in; h) the operator throws into the colander 1 pasta, rice or vegetables together with water used when cooking. Water penetrates in the intrados surface 4in through the dilatated holes 5. In the end, water reaches the extrados surface 4out by abandoning the colander 1.

The convertible colander 1, realised in both above- described embodiments, solves the physical contradiction, described at the beginning of this description, dealing with the need of using, ^" in different times, big holes for straining big-sized pasta, and small holes for straining rice, cooked vegetables, thin pasta in general. In fact,

the invertion of the colander 1 convexity, or of part thereof, obtained by means of a simple operator's intervention, allows configuring the colander in order to optimise : water draining, by keeping at the same time pasta, rice or cooked vegetables; cleaning of the colander 1, easily reaching interstices and holes .

In particular, the convertible colander 1 equipped with an internal gooved surface allows draining big amounts of water through big-sized holes, pasta or rice or cooked vegetables remaining supported by the ridge of the internal surface without getting in contact with the draining holes; the passage to the configuration with convexity inside the colander 1 allows cleaning since it reaches interstices simply through the passage of fingers of a hand.

The convertible colander 1 described as variation, equipped with smooth internal and external surfaces, allows adapting the hole sizes according to big-sized pasta, for which the operator decides to convert the colander 1 with inward convexity, or rice, cooked vegetables or thin pasta, in which case the operator arranges the colander 1 with an outward convexity, improving its filtering capacity due to holes having a reduced-diameter inlet edge.

The variation of the convertible colander 1 therefore allow draining water respectively through big-sized holes, in a position, and small-sized holes, in another position.

The convertible colander 1 is preferably made of deformable elastic material, of the type known in the foodstuff field according to directives in force. In particular, reference is made to thermoplastic material, silicone, elastomer; in this case: platinum silicone, particularly adapted for freezing at -50°C and cooking at 300 ⁰ C; peroxide silicone; elastomer adapted for cooking at 300°C and freezing at -50 ⁰ C.

Thermoplastic material or elastomers, suitably treated in the vulcanising step (dynamic vulcanising) , capable of capturing and keeping air with the result of obtaining a lightweight and insulating structure, allow realising a convertible colander 1 with better insulation and lightness characteristics .

Thermoplastic material or elastomers, worked in a sheet and suitable preformed and assembled with glass cloth, allow realising a convertible colander 1 with high mechanical resistance characteristics against engraving with cutting objects.

The convertible colander 1, according to both the main embodiment and to the variation described above, is

preferably produced through a die in its configuration with inward convexity. In such configuration the die reproduces: grooves 11 in a dilatated position; cylindric holes 5 with maximum diameter.

Constructively, a grooved bottom 4 can have a thickness included between the extrados surface and the groove ridges on the intrados surface equal to 4 mm, and holes whose diameter is equal to 5 mm.

A bi-stable bottom, smooth inside according to the above-described variation, capable of changing the hole size according to the bi-stable position assumed by the bottom itself, can have a uniform thickness of 6 mm and holes with a diameter of 5 mm. The overall sizes of the convertible colander of this application can correspond to those of the prior art. In particular, in order to keep the radial distortion of the attachment edge of the bottom reduced with respect to the lateral colander surface, priority is given to: a pedestal shaped as a frustum of cone, tangent to the bottom membrane, in the configuration with convexity inside the colander;

- a lateral surface tangent to the bottom membrane, in the configuration with convexity outside the colander.