Lunch Box

Abstract

Lunch container comprising a container body made of a metal material, provided with a bottom wall and a continuous side wall, the trailing edge of which is provided with a toroidal relief projecting radially outwardly, and a lid, comprising a flat plate, made of a metal material, along the peripheral edge of which a gasket made of an elastomeric material is overmolded, so as to encompass a portion of the peripheral edge of the plate, the gasket being formed so as to cooperate with the toroidal relief protruding from the trailing edge of the container body, and there being provided in the plate, at a given distance from the peripheral edge thereof, a recess formed from the outside to the inside of the plate, and provided with a through-hole in which is housed the valve-cap of the lid, also made of elastomeric material.

Claims

1. Lunch container comprising a container body (1) made of a metal material, provided with a bottom wall (201) and a continuous side wall, the trailing edge of which is provided with a toroidal relief (101) projecting radially outwardly, and a lid, comprising a flat plate (2), made of a metal material, along the peripheral edge of which a gasket (3) made of an elastomeric material is overmolded, so as to encompass a portion (302) of the peripheral edge of said plate, said gasket (3) being formed so as to cooperate with the toroidal relief protruding from the trailing edge of the container body, and there being provided in said plate (2), at a given distance from the peripheral edge thereof, a recess (102) formed from the outside to the inside of said plate (2), and provided with a through-hole (112) in which is housed the valve-cap (202) of said lid, also made of elastomeric material.

2. Container according to claim 1, in which the gasket (3) is shaped with a substantially G-shaped profile, in which one flap (103) of the profile is overprinted on the plate (2), one flap (203) faces the outside of the container body and cooperates with said toroidal relief (101), and the other flap (303) is intended to cooperate with the inner face of the side wall of the container body (1).

3. Container according to claim 2, in which the flap (203) of the seal profile facing outward is provided with an inner groove (213) of complementary cross-section to said toroidal relief (101), while the flap (313) intended to cooperate with the inner face of the side wall of the container body (1) has the free end curved toward the flap (103) of the profile overmolded on said plate (2).

4. Container according to claim 2, in which the flap (203) of the seal profile facing outward is thicker than the flap (303) intended to cooperate with the inner face of the side wall of the container body (1).

5. Container according to claim 1, in which the container body (1) and lid plate (2) are made of steel, and preferably AISI 304 stainless steel.

6. Container according to claim 5, in which the thickness of the steel plate used to make the container body and lid plate is in the range of 0.5-1.0 mm, and preferably 0.7 mm.

7. Container according to claim 1, in which the container body has a substantially parallelepiped shape with rounded corners, and similarly the lid plate shows the same rounding.

Description

[0010] Further advantages and features of the device according to the present invention will be apparent from the following detailed description of an embodiment of the same, rendered, for illustrative and non-limiting purposes, with reference to the attached tables of drawings, in which:

[0011] FIG. 1 is a perspective view of an embodiment of the lunchbox according to the present invention;

[0012] FIG. 2 is a side elevation view with cross-sectional parts of the container of FIG. 1;

[0013] FIG. 3 is a front elevation view with sectional parts of the container of FIG. 1; and

[0014] FIG. 4 is an enlarged sectional view of a detail of the container according to the present invention.

[0015] A perspective view of the lunch box according to the present invention is shown in FIG. 1; 1 designates the container body. A lid consisting of plate 2 and gasket 3 made of elastomeric material, overmolded on the peripheral edge of plate 2 in the manner best described and illustrated below, is placed on the container body 1, which is substantially parallelepiped in shape with beveled corners. The plate is rectangular in shape with beveled corners, consistent with the shape of the container body, and has near one of the minor sides the recess 102 in which the valve cap 202 is placed.

[0016] FIG. 2 shows the lunch box from FIG. 1, with the lid separated from the body 1, and longitudinally sectioned; equal parts correspond to equal numerals. Highlighted in the figure is the substantially G-shaped profile of gasket 3, in which flap 103 is the one overprinted on the peripheral edge of plate 2, flap 203 is the one facing outward, and flap 303 is the one intended to sit inside body 1. Also shown in the figure is the location of through-hole 112 in recess 102, through which hole 112 the valve cap 202 is placed. Said body 1 has on its trailing edge the toroidal relief 101 protruding outwardly and intended to cooperate with the gasket 3 in the manner better described and illustrated below. The bottom wall 201 of container body 1 is slightly recessed with respect to the lying plane 10, indicated by the dotted line in the figure. FIG. 3 shows the container body of the invention in front view with the lid sectioned in a similar manner to FIG. 2 previously described; the placement of the hole 112 in the recess 102 of the plate 2 is highlighted in the figure.

[0017] FIG. 4 shows an enlarged cross-sectional detail showing the coupling between lid gasket 3 and container body 1; equal parts correspond to equal numerals. As is evident in the figure, the toroidal relief 101 goes into the groove 213 formed on the inner face of flap 203, while the curved 313 end of flap 303 rests on the inner face of the side wall of container body 1; it should also be noted that flap 203 is of thicker section than flap 303. Plate 2 has the peripheral edge 302 slightly funneled from the plane of plate 2 itself, so as to allow for appropriate engagement between the overmolded flap 103 and plate 2.

[0018] The structure and operation of the lunch box according to the present invention will appear evident from the following. The container body is made of metal material, and preferably of AISI 304 stainless steel, i.e., the steel in usual use for steel cutlery and tableware, and the lid plate 2 is made of the same material. The thickness used, both for the container body and the lid plate, is in the range of 0.5-1.0 mm, and preferably 0.7 mm. In contrast to many lunch containers known to the state of the art, in this case it was avoided to form by complex, and therefore expensive, machining the lid so as to accommodate in it the sealing means capable of cooperating with the container body, and vice versa it was preferred to equip, by overmolding, the peripheral edge of the plate with a gasket that was capable of realizing the lid closure.

[0019] Conveniently, one portion of the gasket, i.e., the outward-facing flap 203 is thicker, so as to give solidity to the housing of the relief 101 of the trailing edge of the side wall of the container body, while the flap 303 is thinner, and thus more flexible, so as to allow its end 313 to insist on the container body wall enough to generate the seal. The gasket is made of elastomeric material, specifically food-grade silicone rubber, and the coupling between the gasket and the plate is aided by the embossing of the peripheral edge 302, which allows the same edge to be embedded in the flap 103 of the gasket profile.

[0020] The lunch box designed in this way makes it possible, on the one hand, to decisively simplify the processing of the metal parts, and on the other hand, through cooperation with the overmolded gasket, to achieve a simple and effective closing of the lid, thus realizing a sturdy, easily transportable article suitable for rational room management.