The present invention relates to an improved gas burner.
Gas burners are known intended to be installed in particular in cooking hobs. They comprise an injector holder cup, a burner body positioned on the injector holder cup and a cover positioned on the burner body and defining therewith a chamber for mixing the gas with the primary air and distributing the hence formed mixture, to feed a flame ring.
The injector holder cup is made of die-cast aluminium and is provided on its circumference with means for its fixing to the sheet metal of the cooking hob and on its base with an injector of vertical axis connected to the gas intake conduit.
The burner body is also made of die-cast aluminium and is provided with a conduit of vertical axis coaxial with the injector, which faces this latter at its lower end and opens at its upper end into the distribution chamber, bounded upperly by the cover. In its outer edge there is provided a plurality of primary and secondary apertures, which generate the ring of main flames and the stabilization flame.
The cover can be of two types: the first type has its outer surface virtually flat and is of more pleasant appearance and easier to clean; the second type has its upper surface provided centrally with a depression or projection, which makes it of less pleasant appearance and less easy to clean; at the same time it can be made of sheet metal of lesser thickness and is hence less costly than the first type.
A compromise tending to reconcile both these requirements is widely available for example in Brazil, where cost represents the most important factor; in this case the closure cover is made from a single piece of sheet metal and includes the holes for forming the ring of main flames, in this manner forming a true flame divider. In contrast, in such known flame dividers the apertures for generating the ring of main flames consist of more or less large holes which, besides being of unpleasant appearance, present technical limitations. In particular, because of the thin sheet metal with which the flame divider is made, when liquefied gas is used, passage from the maximum flow position to the minimum flow or closed position can cause a small detonation. This means that the burner minimum flow rate has necessarily to be increased, with consequent reduction of its operating range.
The object of the invention is to eliminate the aforesaid drawbacks by providing a gas burner for cooking hobs with a sheet metal cover which is able to generate an upwardly generated flame ring.
This and other objects which will be apparent from the ensuing description are attained according to the invention by an improved gas burner presenting the characteristics described in claim 1.
The present invention is further clarified hereinafter in the form of three preferred embodiments, with reference to the accompanying drawings, in which:
In the embodiment of
On the base of the cup-shaped support 2 a seat is provided for an injector 10 of vertical axis, fed with the gas via a conduit 12 provided in the support.
A burner body 14 rests on the cup-shaped support 2. It comprises a substantially cylindrical tubular portion 16, coaxial with the injector 10 and having its lower end facing it and its upper end opening at the centre of a circular portion 18 with downwardly-facing slight concavity.
From the lower surface of this circular portion 18, three shoulders 20 extend downwards disposed at 120° apart and forming elements for supporting the burner body 14 at the circumferential edge of the cup-shaped support 2.
The dimensioning of the various parts is such that when the burner body 14 rests on the cup-shaped support 2, the circumferential edge of the circular portion 18 defines with the cooking hob 8 an annular passage through which the primary air 21 required for forming the combustible mixture with the gas, can enter the interior of the cup-shaped support 2.
The circumferential edge of the circular portion 18 faces upwards and forms an annular band 22.
The burner according to the invention also comprises a cover 28 which is rested on the burner body 14. In particular, the cover 28 can rest with its lower edge on the inner zone (defined externally by the annular band 22) of the upper surface of said circular portion 18 (see
The cover 28 is made of blanked and drawn sheet metal, preferably of steel, but also of aluminium, brass, stainless steel, sintered steel or other suitable metal alloys.
The cover 28 has an essentially flat upper surface 29, with the edge bent downwards to form externally a circumferential band 30 provided with a plurality of apertures 32 of essentially elongated vertical extension, for passage of the combustion mixture which generates the ring of main flames 34.
The cover 28 has a radial extension less than that of the annular band 22 of the body 14. Preferably, the annular band 22 of the burner body 14 is exposed (i.e. is not covered/hidden by the cover 28) and is inclined by an angle corresponding to the inclination of the circumferential flange 30 of the cover 28, such as to define line continuity between said cover and the exposed portion of the burner body 14. However, it should be noted that said annular band 22 of the burner body 14 can also present an inclination which is different from that of the circumferential flange 30 of the cover 28.
The substantially flat portion 29 of the cover 28 defines with the concave portion 18 of the burner body 14 a radial venturi effect chamber 36, which facilitates the mixing of the gas with the primary air and the formation of the combustion mixture.
In a position underlying the elongated apertures, the circumferential flange 30 of the cover 28 is provided with a plurality of small apertures 24 for passage of the combustion mixture intended to feed an annular stabilization flame 26 for the ring of main flames 34. In particular, the small apertures 24 of the circumferential flange 30 of the cover 28 are covered and hidden by the annular band 22 of the burner body; hence the mixture which leaves the apertures 24 of the cover 28 generates the annular stabilization flame 26 at holes (not shown) provided in the annular band 22 of the burner body 14, or in that annular space left between the lower edge of the cover 28 and the upper edge of the annular band 22 of the body 14 (see
In greater detail, the sheet metal which forms the cover 28 has a thickness preferably between 1.0 and 1.7 mm, while the elongated apertures 32 provided in the circumferential band 30 have a height between 3.0 and 7.0 mm and a width between 1.0 and 1.7 mm.
The elongate shape of these apertures 32 has proved considerably advantageous, in that:
In a second embodiment shown in
In a third embodiment shown in
A cover/flame divider 28 with apertures 32 or 40 of elongated vertical extension (and with one or more of the aforedescribed characteristics) can also be used with multi-ring burners, i.e. with burners presenting a central body, from which a central flame ring originates, and an annular body, which is separated from said central body by an annular cavity and in which one or more annular flame rings originate, concentric to said central ring.
Number | Date | Country | Kind |
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VE2014A000002 | Jan 2014 | IT | national |
Filing Document | Filing Date | Country | Kind |
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PCT/IB2015/050222 | 1/12/2015 | WO | 00 |