TECHNICAL FIELD

This application relates to the field of gas cooktops, and in particular, to a burner for a gas cooktop.

BACKGROUND

The gas cooktops are common household cooktops in people's daily life. The gas cooktops may be divided into a plurality of types such as a liquefied petroleum gas cooktop, a coal gas cooktop, and a natural gas cooktop according to different types of used flammable gas. Currently the types of burners for gas cooktops are rather limited, and the burner structure needs to be improved.

Unless there is sufficient evidence, the prior art described herein does not mean that it is recognized that the prior art is well known to a person of ordinary skill in the art to which this application relates before the filing date of this application.

SUMMARY

An objective of embodiments of this application is to provide an improved gas cooktop and a burner for same.

An embodiment of this application relates to a burner for a gas cooktop, including a burner head and a burner head base. The burner head base includes a first Venturi tube, a second Venturi tube, a first annular gas supply groove, and a second annular gas supply groove that surrounds the first annular gas supply groove. The first Venturi tube is configured to supply gas to the first annular gas supply groove. The second Venturi tube is configured to supply gas to the second annular gas supply groove. The burner head includes an inner ring portion and an outer ring portion that surrounds an outer side of the inner ring portion. The inner ring portion includes a fire-gathering ring and an annular wall that is connected to an outer wall of the fire-gathering ring. The fire-gathering ring is in a shape of a side wall of an inverted truncated cone. The outer wall of the fire-gathering ring and an inner wall of the annular wall enclose a first gas channel, and the first gas channel is in communication with the first annular gas supply groove. An inner wall of the outer ring portion, the outer wall of the fire-gathering ring, and an outer wall of the annular wall enclose a second gas channel, and the second gas channel is in communication with the second annular gas supply groove. The fire-gathering ring is provided with a plurality of first fire holes in communication with the first gas channel and a plurality of second fire holes in communication with the second gas channel. This application provides a new burner for a gas cooktop.

In a possible design, the inner wall of the outer ring portion includes a top surface and a side surface that are connected, and the top surface is provided with an inner positioning surface. A top portion of the inner ring portion is provided with an outer positioning surface. The inner positioning surface squeezes and fits in with the outer positioning surface from top to bottom.

In a possible design, both the inner positioning surface and the outer positioning surface are in circular ring shapes.

In a possible design, the fire-gathering ring is provided with a ring of flame-stabilizing groove, and at least part of the first fire holes are disposed in the flame-stabilizing groove.

In a possible design, the annular wall is integrally formed on the fire-gathering ring.

In a possible design, the burner further includes cooktop support legs, and the cooktop support legs are integrally formed on the outer ring portion. This application provides a new burner provided with cooktop support legs.

In a possible design, slots are disposed on a side wall of the burner head base. When the outer ring portion is placed on the burner head base from top to bottom, bottom ends of the cooktop support legs are partially inserted into the slots. Therefore, the burner head and the burner head base may be better fastened, and the cooktop support legs may support the cooktop more stably.

In a possible design, an outer surface of the burner head is connected to an outer surface of the burner head base. Therefore, an integrated effect of the burner head and the burner head base may be improved.

In a possible design, the burner head is an inner-flame burner head, and fire holes of the burner head are all disposed in the fire-gathering ring.

In a possible design, the burner head base is provided with a plurality of legs, and an air supplement channel is disposed at an interval between two adjacent legs.

Another embodiment of this application relates to a gas cooktop including the burner according to any one of the above.

It should be noted herein that terms "first" and "second" in this specification are used merely for the purpose of description, and are not used for indicating relative importance. In addition, such terms are not intended to define the number of the features limited thereby, and are not intended to define a logic relationship or an order relationship of the features limited thereby.

The contents of the technical solutions above of this application are not used for describing all possible implementations of this application. Throughout the application, guidance is provided in multiple places by enumerating examples, and such examples may be used in various feasible combinations.

BRIEF DESCRIPTION OF THE DRAWINGS

The following accompanying drawings are merely intended to give schematic illustrations and explanations of this application, but are not intended to limit the scope of this application.

FIG. 1 is a schematic structural diagram of an embodiment of a burner for a gas cooktop according to this application;

FIG. 2 is a partial schematic structural diagram of an embodiment of a burner for a gas cooktop according to this application;

FIG. 3 is a schematic structural diagram of an inner ring portion in an embodiment of a burner for a gas cooktop according to this application;

FIG. 4 is a cross-sectional view of a burner head in an embodiment of a burner for a gas cooktop according to this application;

FIG. 5 is a partial schematic structural diagram of an embodiment of a gas cooktop according to this application; and

FIG. 6 is an exploded view of the structure shown in FIG. 5.

Reference Numerals:

1 - first annular gas supply groove; 2 - second annular gas supply groove; 3 - burner head base; 4 - slot; 5 - leg; 6 - air supplement channel; 7 - cooktop support leg; 8 - outer ring portion; 9 - side surface; 10 - top surface; 11 - first fire hole; 12 - second fire hole; 13 - flame- stabilizing groove; 14 - inner ring portion; 15 - annular wall; 16 - first Venturi tube; 17 - second Venturi tube; 18 - support plate; 19 - glass cooktop panel; 20 - drip pan; 21 - first gas channel; and 22 - second gas channel.

DETAILED DESCRIPTION

To make the objectives, solutions, and advantageous effects of this application clearer and more comprehensible, this application is further described below with reference to the accompanying drawings and exemplary embodiments.

This application provides an embodiment of a burner for a gas cooktop. As shown in FIG. 1 to FIG. 4, the burner includes a burner head and a burner head base 3. The burner head base 3 is configured to support the burner head. A gas accommodating cavity is formed at intervals between the burner head and the burner head base 3.

The burner head base 3 includes a first Venturi tube 16, a second Venturi tube 17, a support plate 18, a first annular gas supply groove 1, and a second annular gas supply groove 2 that surrounds the first annular gas supply groove 1. As shown in FIG. 1 and FIG. 2, the first annular gas supply groove 1 and the second annular gas supply groove 2 are located above the support plate 18, and the first Venturi tube 16 and the second Venturi tube 17 are located below the support plate 18. The first Venturi tube 16 is in communication with the first annular gas supply groove 1. The second Venturi tube 17 is in communication with the second annular gas supply groove 2.

The burner head is provided with cooktop support legs 7. Specifically, the cooktop support legs 7 are integrally formed on the burner head. Slots 4 are disposed on a side wall of the burner head base 3. As shown in FIG. 1, when the burner head is placed on the burner head base 3 from top to bottom, bottom ends of the cooktop support legs 7 are partially inserted into the slots 4.

When the burner head is placed on the burner head base 3, bottom ends of the cooktop support legs 7 are partially inserted into the slots 4, so that the burner head cannot rotate circumferentially, and the burner head will not fall off from the burner head base 3 easily. Therefore, the burner head and the burner head base 3 may be better fastened, and the cooktop support legs 7 may support the cooktop more stably.

A quantity of the slots 4 and a quantity of the cooktop support legs 7 are the same, and are both four. The slots 4 are in a one-to-one correspondence with the cooktop support legs 7. Bottom ends of the cooktop support legs 7 are partially inserted into the corresponding slots 4. It should be noted herein that, in this embodiment, "the slots 4 are in a one-to-one correspondence with the cooktop support legs 7" does not mean that a specific cooktop support leg 7 can only match a specific slot 4, but instead, any cooktop support leg 7 is adapted to match any slot 4. However, when the burner head is placed on the burner head base 3, one cooktop support leg 7 matches one slot 4.

As shown in FIG. 1 and FIG. 4, the burner head includes an inner ring portion 14 and an outer ring portion 8 that surrounds an outer side of the inner ring portion 14. The cooktop support legs 7 are integrally formed on the outer ring portion 8. When the burner head is placed on the burner head base 3, an outer surface of the burner head is connected to an outer surface of the burner head base 3. Specifically, as shown in FIG. 1, an outer surface of the outer ring portion 8 is connected to the outer surface of the burner head base 3. The inner ring portion 14 and the outer ring portion 8 are of split structures, so that it is possible that the inner ring portion 14 and the outer ring portion 8 are made of different materials. In this embodiment, the inner ring portion 14 and the outer ring portion 8 are made of different materials. A material of the inner ring portion 14 has better high-temperature resistance than that of a material of the outer ring portion 8. Specifically, the inner ring portion

14 is a copper inner ring portion, and the outer ring portion 8 is a cast iron outer ring portion.

An inner wall of the outer ring portion 8 includes a top surface 10 and a side surface 9 that are connected, and the top surface 10 is provided with an inner positioning surface. Atop portion of the inner ring portion 14 is provided with an outer positioning surface. Both the inner positioning surface and the outer positioning surface are in circular ring shapes. The inner positioning surface squeezes and fits in with the outer positioning surface from top to bottom. When the inner positioning surface squeezes and fits in with the outer positioning surface, the two are sealed to each other, and there is no airflow channel disposed between the two for gas to pass through.

As shown in FIG. 3 and FIG. 4, the inner ring portion 14 includes a fire-gathering ring and an annular wall 15 that is connected to an outer wall of the fire-gathering ring. The annular wall

15 is integrally formed on the fire-gathering ring.

As shown in FIG. 3 and FIG. 4, the fire-gathering ring is disposed in a shape of a side wall of an inverted truncated cone, so that the heating efficiency is improved. As shown in FIG. 4, the outer wall of the fire-gathering ring and an inner wall of the annular wall 15 enclose a first gas channel 21. When the burner head is placed on the burner head base 3, the first gas channel 21 is in communication with the first annular gas supply groove 1. As shown in FIG. 4, the inner wall of the outer ring portion 8, the outer wall of the fire-gathering ring, and an outer wall of the annular wall 15 enclose a second gas channel 22. When the burner head is placed on the burner head base 3, the second gas channel 22 is in communication with the second annular gas supply groove 2.

The fire-gathering ring is provided with a plurality of first fire holes 11 in communication with the first gas channel 21 and a plurality of second fire holes 12 in communication with the second gas channel 22. The first fire holes 11 are located below the second fire holes 12. The fire-gathering ring is provided with a ring of flame-stabilizing groove 13. As shown in FIG. 3, some first fire holes 11 are disposed in the flame-stabilizing groove 13.

The gas accommodating cavity includes an inner cavity and an outer cavity independent of each other. The outer cavity surrounds the inner cavity. The first gas channel 21 and the first annular gas supply groove 1 are stitched together to form the inner cavity. The second gas channel 22 and the second annular gas supply groove 2 are stitched together to form the outer cavity. The first Venturi tube 16 is configured to supply gas to the first annular gas supply groove 1. In other words, the first Venturi tube 16 is configured to supply gas to the inner cavity. The second Venturi tube 17 is configured to supply gas to the second annular gas supply groove 2. In other words, the second Venturi tube 17 is configured to supply gas to the outer cavity.

The burner head is an inner-flame burner head. Fire holes of the burner head are all disposed in the inner ring portion 14. Specifically, as shown in FIG. 1 and FIG. 3, the fire holes of the burner head are all disposed in the fire-gathering ring.

As shown in FIG. 1 and FIG. 2, the burner head base 3 is provided with four legs 5, and each leg 5 is located above the support plate 18. An air supplement channel 6 is disposed at an interval between two adjacent legs 5. The four slots 4 are in a one-to-one correspondence with the four legs 5. Each slot 4 is disposed in a corresponding leg 5. The support plate 18 is configured to support the four legs 5. The support plate 18 and the legs 5 are both configured to enclose the air supplement channel 6. The air supplement channel 6 is located above the support plate 18.

The legs 5 are provided with gas channels configured to supply gas to the gas accommodating cavity. Gas channels of some legs 5 are configured to supply gas to the inner cavity, and specifically, are in communication with the first Venturi tube 16. Gas channels of other legs 5 are configured to supply gas to the outer cavity, and specifically, are in communication with the second Venturi tube 17.

The above is only one embodiment of this application, and other embodiments may be obtained by adding, deleting, modifying, or replacing some technical features. For example, the burner head may alternatively adopt an integral structure, that is, the inner ring portion and the outer ring portion are no longer disposed separately, but are integrally formed.

In another example, as shown in FIG. 5 and FIG. 6, the cooktop support legs 7 may alternatively adopt other structures, and the slots 4 on the side wall of the burner head base 3 do not extend to the support plate 18. FIG. 5 and FIG. 6 show diagrams of effects achieved when the burner is applied to a gas cooktop. The gas cooktop is adapted to be provided with two burners, where one burner on the left side is mounted, and the other burner on the right side is not mounted yet. The gas cooktop includes a panel. The bottom ends of the cooktop support legs 7 are located above the panel. The bottom ends of the cooktop support legs 7 are spaced apart from the panel by a specific distance. The panel includes a glass cooktop panel 19 and a drip pan 20. The drip pan 20 is snugly disposed on the glass cooktop panel 19. Specifically, the drip pan 20 is adhesively fixed to the glass cooktop panel 19. An upper surface of the drip pan 20 is a plane, so that the drip pan 20 is easy to clean. As shown in FIG. 5, the bottom ends of the cooktop support legs 7 are located above the drip pan 20, and the bottom ends of the cooktop support legs 7 are spaced apart from the drip pan 20 by a specific distance. Different embodiment components may be combined with each other in any feasible manner, to achieve the objectives of this application.

It should be additionally explained that this application should not be understood as being only limited to the implementations described above, but should be understood as covering all possible implementation situations determined by the claims of this application in conjunction with the disclosure of the specification. Therefore, any simple modification, equivalent change and modification made to the foregoing embodiments according to the technical essence of this application without departing from the content of this application shall fall within the protection scope of this application.