The present invention relates to gas burners for cooking stoves and in particular to a gas burner suitable for use with a wok.
Wok burners are in the main single injector designs and aim at concentrating the heat at the centre of the burner, corresponding to the bottom of the wok. Such burners are known from documented prior art constructions, such as those found in DE3918715 and similar designs, such as U.S. Pat. No. 6,688,882 and U.S. Pat. No. 6,089,219, as well as JP10-185212 and JP10-160127. However, it is common to these constructions that they require a fairly large space below the hob surface to accommodate the injector. Also, most of these designs are not sufficiently adaptable, for instance in cases where it is desired to use one and the same burner configuration as the basis for a burner that could heat up a larger area of a cooking utensil, such as an ordinary cooking pot or frying pan. Even those documents among the above cited that do indeed describe burners for larger areas require a large space below the hob. It is the purpose of the present invention to provide gas burners which are adaptable for use in many variants, answering to various needs of heat distribution. It is a further purpose to provide gas burners that do not take up much space below the hob surface.
Any reference herein to known prior art does not, unless the contrary indication appears, constitute an admission that such prior art is commonly known by those skilled in the art to which the invention relates, at the priority date of this application.
The present invention provides a gas burner including: a distributor means having at least one distribution chamber to distribute an air gas mixture around said distributor, said burner including a plurality of flame ports through which said gas mixture can pass and be ignited; at least one injector associated with said distributor, said at least one injector being positioned to inject gas into said at least one distribution chamber via a venturi formed of a vertically directed passage and transition port and at least one venturi extension extending away from said transition port.
There can be two, three or four generally horizontal venturi extensions, which extend in separate directions away from said transition port.
The distributor means can have a generally cylindrical outer surface.
The distributor means can have at least two, or preferably three, equi-spaced inwardly extending arms.
The distributor means can include at least one radially outwardly extending arm.
The flame ports direct streams of air gas mixture towards the centre of said distributor.
The distributor can have an aperture having a clover leaf configuration.
The distributor means can be segmented whereby each segment has its own distribution chamber and injector.
The distributor means can be segmented by means of segment walls between respective segments.
The distributor means can be an assembly of separate or discrete segments which are assembled or otherwise joined together.
The separate or discrete segments can include interlocking formations thereon so that adjacent burner segments can be assembled together. Alternatively or additionally, the separate or discrete segments are held together as an assembly by means of a interaction with a burner cap. Alternatively or additionally a circumferential fixing means assists in holding or holds said separate or discrete segments together as an assembly to form a distributor.
The distributor means can be segmented by means of gas flow from said injectors.
The segments can form one of the following: a cross shape with an arcuate or circumferential cross bar; a T shape with a convex arcuate or circumferential cross bar; a T shape with a concave arcuate or circumferential cross bar.
There can be two venturi extensions which form an arcuate or circumferential shape.
There can be three venturi extensions which form a T shape with an arcuate or circumferential cross bar.
There can be four venturi extensions which form a cross shape with an arcuate or circumferential cross bar.
The at least one venturi extension can be formed as part of said distributor means.
The at least one venturi extension can be formed in a cap which is positioned on top of said distributor means.
The burner can include a cap which is positioned on top of said distributor means.
The flame ports can be formed in one or more walls of said distributor means.
The flame ports can be formed in a cap which is positioned on top of said distributor means.
The at least one venturi extension can have one or more occluding structures associated therewith for directing and or baffling said air gas mixture in its flow from said transition port to said flame ports.
The occluding structures can comprise a wall or ridge like formation extending away from said at least one venturi extension.
The distributor means can have at least one air entry port per injector.
There can be a plurality of air entry ports per injector.
A plurality of air entry ports can be formed in a side wall of said distributor means.
At least one air entry port can have a larger cross sectional area at intermediate regions by comparison to side regions of said air entry ports.
At least one air entry port can be positioned in said wall of said distributor means so as to be located adjacent to said injector.
Each said injector can be shielded by a portion of a wall of said distributor means to prevent air passing in through said air entry port from disturbing the operation of said injector.
The air entry ports can be located between respective arms of said distributor means, and respective injectors are located so that they are aligned with the direction of radial extension of said arm.
The burner can include a trivet which is aligned with said arms, so as to overlie said arms.
The arms can have a flame port arrangement whereby the axis of said flame ports on a respective arm is generally at an acute angle to the radial direction of extension of a respective arm.
The arms can extend away from said distributor means at an angle of inclination or declination away from an imaginary horizontal plane.
The distributor means can be mounted on a manifold including a gas inlet which communicates with a cavity in said manifold, said injectors communicating with said cavity.
The cavity can be convex shaped whereby the height of said cavity at the outer periphery is of a height greater than at the centre of said cavity.
The manifold can have its top surface concave in shape, so as to collect towards the centre of said base spillage which occurs during cooking.
The distributor means can have an internal and an external perimeter, with inwardly directed ports in said internal perimeter and outwardly directed ports in its external perimeter.
The at least one venturi extension can be oriented so as to be generally horizontal.
The present invention also provides a manifold for a gas burner, said manifold having an upper wall and a lower wall held in spaced apart relationship by a peripheral wall to define a cavity therebetween, said manifold including means to mount at least one injector so as to deliver an air gas supply to a distribution means and an inlet port to allow connection to a supply of gas, which can pressurise said cavity, said upper and said lower wall being formed from relatively thin sections.
The upper wall can have a convex surface protruding into said cavity.
The manifold includes one or more ports adapted to receive said at least one injector nozzle.
The upper wall can have a generally concave surface on the outer upper side thereof.
The upper surface of said manifold can also function as a cup to receive spills when cooking.
The present invention further provides a gas burner comprising one distributor means having at least two discrete distribution chambers therein, each chamber having communication with flame ports and including a venturi to supply an air gas mixture thereto; said burner having only one manifold to conduct gas to respective injectors for each venturi from a single gas supply connection to said manifold, each of said chambers having a radially extending portion, which extends inwardly towards the centre of said burner, whereby between the ends of respective radially extending portions there is provided an unobstructed space.
Each radially extending portion can include at least two sides which are generally parallel.
Each chamber can also include two oppositely extending circumferential or arcuate portions.
The chamber can also include a radially outwardly extending portion.
The burner can include a cap.
The distributor means or said cap can include a multiplicity of said flame ports.
The flame ports can be formed by a combination of formations located on said distributor means and said cap.
The chamber can include at least one venturi extension which defines a peripheral channel to deliver air gas mixture to flame ports.
The cap can include at least one venturi extension which extends into said. chamber to define a peripheral channel to deliver air gas mixture to flame ports.
Each venturi can include a vertical passage which opens into at least one generally horizontal venturi extension which extends away from said vertical passage in the direction of each respective extending portion of said chamber.
The at least one generally horizontal venturi extension can be formed in said distributor means.
The at least one generally horizontal venturi extension can be formed in an underside of a cap.
The distributor means can be an assembly of separate or discrete segments which are assembled or otherwise joined together.
The separate or discrete segments can include interlocking formations thereon so that adjacent burner segments can be assembled together. Alternatively or additionally, the separate or discrete segments are held together as an assembly by means of a interaction with a burner cap. Alternatively or additionally a circumferential fixing means assists in holding or holds said separate or discrete segments together as an assembly to form a distributor.
The present also provides a gas burner including a distributor having flame ports in a wall portion of said distributor and or in a cap which will cooperate with said distributor, said distributor also including at least two venturis with each venturi having a respective injector associated therewith located internally of and near to a wall portion of said distributor, said distributor including at least two generally elongated air inlet ports which are located in said wall, said ports having a longitudinal axis which extends circumferentially around said distributor, said ports including at their extremities a reduced cross sectional area when compared to the central portions of said port.
A respective injector can be located between opposing ends of said air inlet ports near to a wall portion of said distributor to prevent radially inwardly flowing air from interacting with said injector.
The injectors and said air inlet ports can be arranged with respect to said distributor so that a main stream of radially inwardly flowing air passes through said transition port as secondary air for said flame ports.
The injectors and the air inlet ports can be arranged with respect to said distributor so that air passing through said air inlet ports which will be used as primary air by said injectors approaches said injectors in a generally circumferential direction from said air inlet ports.
The air inlet ports can provide an opening which increases in height to a maximum and then decreases, in circumferential direction around said distributor.
The air inlet ports can be one of the following: eye shaped; diamond shaped; half eye shaped, triangular; a circular segment.
The present invention further provides a gas burner including a distributor means having at least one chamber to distribute an air gas mixture around said distributor means, said burner including a plurality of flame ports through which said gas mixture can pass and be ignited; at least one injector associated with said distributor means, said at least one injector being positioned to inject gas into said at least one chamber via a respective vertically directed converging passage terminating with an transition port which has communication with said chamber, a venturi being formed in part by said converging passage and said transition port with a final part of said venturi being formed by at least one venturi extension which acts upon a generally horizontal flow of said air gas mixture flowing from said transition port, said transition port having at or near its rim two or more occluding structures associated therewith for directing and or baffling said air gas mixture in its flow from said transition port to said flame ports.
The occluding structures can comprise a wall or ridge like formation extending away from said protrusion and or said protrusion extensions.
The occluding structures can have a castellated appearance.
The occluding structures are formed on said distributor means or in a cap associated with said distributor means or by a combination of both.
The flame ports can be formed on said distributor means or in a cap associated with said distributor means or by a combination of both.
Extending away from said transition port there can be at least two venturi extensions.
The occluding structures can be located near to the edges of said venturi extensions.
The venturi extensions can be formed either on said distributor means or in a cap associated with said distributor means or by a combination of both.
The occluding structures can taper toward their extremities.
An embodiment of the present invention will now be described, by way of example only, with reference to the accompanying drawings, in which:
Illustrated in
The nature of the manifold top member 14 and manifold bottom member 16 is that they can be manufactured from relatively thin sections making them relatively simple to manufacture by any one of several methods such as injection moulding, casting or pressing.
The manifold bottom member 16 has four downwardly extending supports 24 which rest against the upper surface of a stove base (not illustrated) or burner box to support the manifold 15 when mounted in a stove enclosure. Two of the supports 24 have locating lugs 25 extending downwardly therefrom, as each are to be inserted in similarly shaped apertures on a stove enclosure.
The manifold bottom member 16 is effectively a cover which sealingly sits within a similarly shaped recess 26 located within the lowermost rim 28 of the manifold top member 14. As can be seen from the cross sections of
The convex shape of the underneath surface of the manifold top member 14 (relative to the inside or cavity 54 of the manifold 15 as seen in
The cup 12 formed on the upper side of the manifold top member 14 also includes the boss 32 which is raised from the central portion 28. The boss 32 has its side wall extending downwardly, to form part of the rim which forms the recess 26. Two bores 34 pass through the boss 32. The bores 34 allow a spark plug 36 and a flame sensor 37 to be positioned therethrough. From underneath the manifold bottom member 16 appropriate control wiring (not illustrated) is connected to the flame sensor 37 and the spark plug 36 to generate a spark when a user desires to do so. The boss 32 ensures that the spark plug 36, flame sensor 37 and associated wiring does not pass through the cavity of the manifold 15.
Equi-spaced around the perimeter of the cup 12 or top surface of the manifold top member 14 are three nozzle apertures 38. The nozzle apertures 38 are threaded and each receive a male threaded injector nozzle 39. The injector nozzle 39 utilised will depend upon whether the burner 10 is utilised with town gas, natural gas or LPG.
Surrounding the nozzle apertures 38 are nozzle bosses 40. The purpose of the nozzle bosses 40 and the boss 32 is to protect the injector nozzles 39, the spark plug 36 and flame sensor 37 from any food or liquid spilt through the burner and onto the cup 12. The dish shape or concave nature of the upper surface of the central portion 28 of the cup 12 is such that any liquid or food upon hitting the surface will tend to be directed towards the centre of the cup 12 and thus away from the injector nozzles 39, spark plug 36 and flame sensor 37.
Around the upper rim 42 of the manifold top member 14 are three equi-spaced tapered notches 44 which will receive similarly shaped locators 52 extending downwardly from the lowermost rim 88 or skirt of the distributor 50. It will be noted that the notches 44 are on the same imaginary radius of the manifold top member 14 as the nozzle apertures 38 so that the nozzle aperture 38 and notches 44 are aligned.
The manifold bottom member 16 is attached to the manifold top member 14 by means of screws (not illustrated) spaced around the perimeter of the manifold bottom member 16. Any appropriate fixing system could be utilised such as riveting, clinching, bending the edge to form a retaining tag. If necessary, an appropriate sealant such as a gasket, or silicone rubber could be used to seal the two pieces of the manifold 15 together.
Also included in the upper rim 42 of manifold top member 14 are three mounting holes 48 which are used to secure the assembly of the manifold top member 14 and manifold bottom member 16 respectively into a stove enclosure (not illustrated).
The distributor 50 is illustrated in more detail in
The distributor 50 is of a generally annular or ring shaped construction with three radially inwardly projecting arms 58 which are of a tapered construction. This tapered construction provides the arms 58 with a minimum depth at their extremities 60 which increases to a maximum depth at a location radially inward of the base and inboard of the tapered bore 56.
Between the termini 60 of the radially inwardly directed arms 58 there is provided an unobstructed space. This unobstructed space helps in the distribution of heat to the surface of a wok or other cooking utensil. Further, each of the radially inwardly extending arms 58 has a portion which consists of essentially parallel sides.
The upper rim 66 of the generally cylindrical outer wall 63 terminates in a single plane and completely surrounds the upper end of the distributor 50. At three equi-spaced locations (these locations being circumferentially equidistant from the outlet ports 64), are located segment-separating walls 68 which also terminate in the same plane as the rim 66. The walls 68 interconnect rim 66 with the inner wall 70, the upper edge of which reaches the same plane as the wall 68 and rim 66. The inner wall 70, by virtue of the radial arms 58 forms a clover-leaf shaped aperture through the distributor 50.
Through the inner wall 70 are a series of flame ports 72 of which only one has been numbered in
The tops of inner wall 70, between walls 68 and the interconnecting portion of the rim 66, being all in the same plane all make contact with a steel cap 80 positioned onto the top of the distributor 50. As is illustrated in the cross section of
As is illustrated in
It will be noted from
Along a portion of the edge of the venturi extensions 78′, 78″, at the interface between the circumferentially extending venturi extensions 78″ and the radially inwardly extending venturi extension 78′, there is provided two occluding ridges 50.4 and 50.3. The function of these ridges will be explained in more detail below, with reference to
As can be seen from
It will be noted from the cross section of
The venturi extensions 78′ and 78″ extend in three directions away from the transition port 64. The venturi extensions 78″ extend in two circumferential directions which are generally opposite to each other and concentric to the rim 66, while the third venturi extension 78′ extends in a radially inward direction along the radially inwardly directed arms 58.
As can be seen from
Once one flame port 72 has the exiting air gas mixture ignited by means of the spark plug 36, all the rest of the flame ports 72 will catch alight and a flame pattern as schematically depicted in
The lower rim of the distributor 50 has three equi-spaced air inlet ports 86 which have the centre aligned with the segment walls 68. The air inlet ports 86 allow secondary air represented by arrows 200.2 to pass from outside to the inside of the distributor 50 and thus be entrained and combusted with the air gas mixture.
Each air inlet port 86 is of a generally diverging then converging shape when viewed in the circumferential direction around the outside of the distributor 50. This diverging then converging shape means that the centre portion of the air inlet port 86 is of a greater cross sectional area than the extremities and is located so as to be immediately below and outboard of the circumferentially located flame ports 72, the flame ports 72 being located along the left and right sides of consecutive radially inwardly extending arms 58. Thus through the main or central cross sectional area of the air inlet port 86, the bulk of air flowing through the air inlet port can be used as secondary air for the burner, whereas at the reduced cross sectional area sections at the left and right extremities of the air inlet port 86, the air passing through these portions will travel circumferentially (see arrows 200.5 of
The distributor 50 has its lowermost rim 88 between the air inlet ports 86 in contact with the upper rim 42 of the manifold 15, thereby generally preventing air passing directly underneath the rim 88 and into the injector 39. This feature prevents any drafts from adversely influencing the injector and its operation in entraining primary air and mixing same with gas.
It will be noted that there is one air inlet port 86 for each injector 39 and that between the left and right extremities of adjacent air inlet ports 86, in approximately the centre thereof, is located the injector 39 which is also positioned by the inboard side of wall 63 of the distributor 50.
While the air inlet ports 86 in the
The distributor 50 rests on the cup 12 or manifold 15 by means of the locators 52 being positioned within the shaped notches 44. This will align the tapered bores 56 and outlet ports 64 over the nozzle apertures 38 and associated injector nozzles (not illustrated). Having three equi-spaced locators 52, will ensure the alignment of these features in any of the three possible orientations of the distributor 50 on the cup 12. The size, shape and length of the locators 52 and notches 44 must be matched so as to ensure that the rim 88 makes contact with the manifold periphery 42, thus preventing air flow underneath rim 88.
The lowermost rim 88 on either side of the locators 52 (the lowermost rim being the edge of the surface 62 of
The manifold 15 can be manufactured from aluminium and an appropriate gas tight seal provided between the manifold bottom member 16 and the manifold top member 14. For cleaning purposes there is no securing of the distributor 50 onto the manifold 15 and the cap 80 is not secured to the distributor 50 for the same reason.
While wall 68 is provided to segment the distributor 50, it is expected that such a segment wall 68 could be removed. If the wall 68 were not present, and assuming the influence of equal gas pressure emanating from the injectors nozzles via transition port 64 and over the venturi extensions 78′ and 78″, it is envisaged that the flow of gas will functionally segment the distributor 50 with similar effect as currently results by means of the segmented wall 68.
If desired the number of radially inward arms 58 can be reduced to two or increased to four, five or six depending upon the outside diameter of the distributor 50.
Illustrated in
Illustrated in
Another difference is that there are separate walls 68 forming the terminus of each segment. Between the adjacent walls 68 is a cross lighting passage 350.3. The purpose of the passage 350.3 is to allow cross lighting or flame propagation from inside the burner to the ports 72 and 74 through rim 66 when the inwardly directed ports are ignited.
A further difference is the lack of occluding ridges 50.4 and 50.3 which are present on the distributor 50. The distributor 50, whilst having flame ports 72 through the rims 66, does not have any flame ports in the region immediately above locator 52 and radially outwardly from the arm 58. What is present however are flame retention ports 74. This allows a trivet to be utilised with the burner and prevents heat being wasted, as well as ensuring lighting of the ports 72 when the burner has been turned down.
Illustrated in
A first improvement is a broader flame propagating or cross lighting channel 350.3 which has been provided with facing flame retention ports 450.1. Each flame retention port 450.1 is located through a respective segment-separating wall 68 at the ends of each segment. The flame retention ports 450.1 help to maintain a flame in this area thus allowing flame to propagate from the flame ports on the internal periphery of the distributor 450 to the flame ports on the external periphery.
Another point of difference is in the region of the venturi around the tapered bores 56 and the associated outlets 64. This is shown in more detail in
It has been found that the shortening of the circumferentially extending venturi extensions 78″ helps to balance the pressure of the air gas mixture within the distribution chamber and provide a balanced flow of air gas mixture through all ports. This helps to provide better control of the flames and thus the heat output.
Illustrated in
It will also be noted from
Illustrated in
Similarly in regards to
Illustrated in
It will be noted from the plan view of
Illustrated in
Illustrated in
Illustrated in
Illustrated in
The shapes of the burner segments 801, 802, 803 and 804 illustrated in
While the description above in relation to
Accordingly, schematically represented in
The interlocking formation 801.1 is an arrow shaped recess formed in the bottom of the segments 801, 802, 803 and 804 and is sized and shaped so as to receive the matching shaped, formation 801.2 which is an arrow shaped protrusion extending away from the segments 801, 802, 803 and 804 on an adjacent segment. While arrow shaped formation 801.1 and 801.2 are illustrated, other joining mechanisms could be used such as bayonet fittings, hook formations, spigots and apertures, locked together by circlips, etc.
If desired, either in combination with interlocking formations 801.1 and 801.2, or as an alternative to them, the discrete segments of the distributor can be held together by interaction with, or by contact with a burner cap, such as cap 80 of previous figures. Further if desired or as an alternative to this, the discrete segments could be held together by means of a circumferential strap or other circumferential binding system.
The burner segment 801, 802, 803 and 804 of
As will be readily understood from
The above description show distributors made up of three segments which are separated by segment walls 68, and having three inwardly extending arms 58, and each segment has its own distribution channel and or chamber, injector and venturi associated therewith. However it will be readily understood that any number of segments and inwardly extending arms could be utilised, as is appropriate for the duty of the burner.
It is to be noted that if a segment has two, three or four extending sections that the horizontal venturi has a corresponding number of venturi extensions 78′ and 78″.
In the above described burners and distributors, the venturi extensions 78′ and 78″ are illustrated as being formed as part of the distributor. Further, as is illustrated in
Illustrated in
The burner 800 has the segmented distributor, a similar venturi and venturi extension arrangement structure as in previous embodiments. While flame ports are shown on the internal periphery of the burner 800, externally mounted flame ports could also be provided.
To assist this further in the spiral flame effect, the flame ports 72 can also have their axis orientated at an angle of inclination above the horizontal.
Illustrated in
Illustrated in
It will be understood that the invention disclosed and defined herein extends to alternative combinations of two or more of the individual features mentioned or evident from the text or drawings. All of these different combinations constitute various alternative aspects of the invention.
The foregoing describes embodiments of the present invention and modifications, obvious to those skilled in the art, can be made thereto without departing from the scope of the present invention.
Number | Date | Country | Kind |
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900464 | Feb 2004 | AU | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/SE2005/000121 | 2/1/2005 | WO | 00 | 3/16/2007 |