• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The invention relates to a gas burner (2) for a domestic cooking appliance (1), with a burner housing (4) having a mixing chamber (7) for mixing fuel gas (b) with primary air ( l), and with a gas injector (16), housed in the burner housing (4), to inject the fuel gas (b) into the mixing chamber (7), where, between the gas injector (16) and the mixing chamber (7), a first primary air inlet (17) is provided to suck the primary air (l), where the gas injector (16) has a second primary air inlet (21), guided through it, to suck the primary air (l), where the second primary air inlet (21) narrows at least once and widens again in the direction of the primary air stream (r) (l) through the second primary air inlet (21), and where the gas injector (16) has an annular fuel gas outlet opening (28) that opens out directly in the second primary air inlet (21). (Machine-translation by Google Translate, not legally binding)
    公开号:ES2645299A1
    申请号:ES201630747
    申请日:2016-06-03
    公开日:2017-12-04
    发明作者:Cesar Aguado Vela;Javier Corral Ricalde;Jose Salvador OCHOA TORRES;Julio Rivera Peman;Cristina RUEDA SANUDO
    申请人:BSH Hausgeraete GmbH;BSH Electrodomesticos Espana SA;
    IPC主号:
    专利说明:

    The present invention refers to a gas burner for a domestic cooking appliance and a domestic cooking appliance with a gas burner of this type.
    Gas burners for domestic cooking appliances comprise a lower burner part, in which a mixing chamber is centrally provided, as well as an injector holder, which has a gas injector for injecting combustible gas into the mixing chamber. . When fuel gas is injected into
    10 the mixing chamber, between the gas injector and the lower edge of the mixing chamber, primary air is sucked laterally and mixed with the combustible gas.
    Given this background, the present invention solves the technical problem of providing an improved gas burner.
    Therefore, a gas burner is proposed for a cooking appliance
    15 domestic. The gas burner comprises a burner housing that has a mixing chamber for mixing combustible gas with primary air, and a gas injector, housed in the burner housing, for injecting the combustible gas into the mixing chamber, where, between the gas injector and the mixing chamber, a first annular primary air inlet is provided to suck the primary air,
    20 where the gas injector has a second primary air inlet, guided therethrough, to suck the primary air, where the second primary air inlet narrows at least once and widens again in the direction of the current of the primary air through the second primary air inlet, and where the gas injector has an annular fuel gas outlet opening which
    25 flows directly into the second primary air inlet.
    The term "annular fuel gas outlet opening" includes the concept that the fuel gas outlet opening circulates completely around the central or symmetrical axis of the gas burner. The fuel gas outlet opening is shaped like a groove. The expression that "the second primary air inlet 30 narrows in the direction of the primary air stream" includes the concept that the cross-sectional area of the second primary air inlet is reduced; that is, the diameter of the second air inlet


    primary is reduced in the direction of the current. The expression that "the second primary air inlet widens in the direction of the primary air flow" includes the concept that the cross-sectional area of the second primary air inlet increases; that is, the diameter of the second primary air inlet increases in the direction of the current.
    Therefore, the second primary air inlet has a choke point
    or narrow point, before which the second primary air inlet narrows, and after which, the second primary air inlet widens again. In this way, the acceleration of the primary air in the gas injector can be achieved. To burn the combustible gas, it is necessary to air, in particular, the primary air already mentioned, and secondary air. The gas injector injects the combustible gas into the open mixing chamber down. When the fuel gas is injected, a Venturi effect is produced and the primary air is sucked through the gas injector by the second primary air inlet and is sucked simultaneously into the mixing chamber through the first primary air inlet. flowing laterally next to the gas injector, and there it is mixed with the combustible gas forming a primary air / combustible gas mixture. In contrast to this, the secondary air is the air that is necessary to burn the primary air / combustible gas mixture leaving the gas burner.
    By opening the annular fuel gas outlet opening directly into the second primary air inlet, the combustible gas can already intermingle the combustible gas with the primary air. In addition, by providing two primary air inlets, the amount of primary sucked air can be increased, which makes it possible to burn a greater amount of combustible gas. In this way, the power of the gas burner can be increased. Since the combustible gas and the primary air are already intermingled at least partially in the gas injector, the construction height of the gas burner can be reduced compared to the known gas burners. Thanks to this better intermingling of the primary air with the combustible gas, the efficiency of the gas burner is increased and harmful emissions are reduced. The gas burner can also be called a domestic gas burner or a gas burner of a domestic cooking appliance.
    According to one embodiment, the fuel gas outlet opening crosses an outer wall of the second primary air inlet.
    The fuel gas outlet opening flows laterally into the second primary air inlet. When the combustible gas is injected into the mixing chamber,


    It generates a Venturi effect at the inlet of the mixing chamber, so that the primary air is sucked and mixed with the combustible gas.
    According to another embodiment, the gas injector has an annular fuel gas distributor channel, where the fuel gas distributor channel narrows in the direction of the fuel gas outlet opening.
    Preferably, the fuel gas distributor channel is rotationally symmetrically made to the central axis of the gas burner; that is, the fuel gas distributor channel circulates completely around the central axis. Between the fuel gas outlet opening and the fuel gas distributor channel a connection channel is provided, which can be arched, in particular, having a circular arc shape, and a corrugated one. The expression that “the fuel gas distributor channel narrows in the direction of the fuel gas outlet opening” includes the concept that the cross-sectional area of the fuel gas distributor channel is larger than the surface of the cross section of the fuel gas outlet opening.
    According to another embodiment, the second primary air inlet has an inlet section that conically narrows in the direction of the primary air stream, an outlet section that conically widens in the direction of the stream, which is directed towards the mixing chamber, and a cylindrical intermediate section disposed between the inlet section and the outlet section.
    The intermediate section preferably has a surface of the circular cross-section, and forms a narrow point or throttle point of the second primary air inlet. The expression that "the inlet section narrows conically in the direction of the primary air flow" includes the concept that the cross section, or the cross-sectional area of the inlet section is reduced in the direction of the current. The expression that "the output section widens conically in the direction of the current" includes the concept that the cross section, or the surface of the cross section, of the output section increases in the direction of the current.
    According to another embodiment, the fuel gas outlet opening flows into the second primary air inlet between the intermediate section and the outlet section.


    In particular, the fuel gas outlet opening flows directly into the second primary air inlet after the intermediate section; that is, the combustible gas is injected into the second primary air inlet after its narrow point. In this way, a particularly good intermingling of the combustible gas can be performed with the primary air already in the gas injector.
    According to another embodiment, the gas injector is made symmetrically rotationally to the central axis, where the second primary air inlet is also made symmetrically rotationally to the central axis.
    Preferably, the gas injector has a base body formed of a metallic material. As an example, the gas injector can be made of brass. The fuel gas distributor channel is also provided in the base body.
    According to another embodiment, the burner housing comprises a lower burner part, which has the mixing chamber, and an injector holder, connected with the lower burner part, in which the gas injector is housed.
    In addition, the burner housing may have a burner lid resting on the bottom of the burner. The burner cap, the burner bottom, and the injector holder can be made, for example, as die-cast aluminum components. In this way, the gas burner can be manufactured economically in large quantities. The gas burner is mounted next to a cover plate, also called top plate. Here, the cover plate can be arranged between the injector holder and the lower burner part. All the gas burners of the domestic cooking appliance are arranged in solidarity with the cover plate; that is, the domestic cooking appliance has only a cover plate next to which all gas burners are mounted.
    According to another embodiment, the injector holder has a fuel gas channel for supplying the combustible gas to the gas injector.
    A fuel gas distributor channel can also be provided in the injector holder, into which the fuel gas channel ends. The fuel gas distributor channel can be annular and surround the second primary air inlet. In addition, the fuel gas distributor channel of the injector holder may be in fluid connection with the fuel gas distributor channel of the gas injector through connection channels.


    According to another embodiment, the second primary air inlet is made at least partially in the injector holder.
    By way of example, a suction section may be provided on the injector holder, which narrows conically in the direction of the primary air flow, and a supply section for supplying the primary air sucked through the gas injector the suction section.
    Likewise, a domestic cooking appliance is proposed, in particular, a gas cooker, with a gas burner of the exposed type.
    Preferably, the domestic cooking appliance has multiple such gas burners. A gas control valve or gas regulating valve may be associated with each gas burner. The domestic cooking appliance also has a common cover plate, next to which all gas burners are mounted. The cover plate can be, for example, a ceramic hob. The domestic cooking appliance can be a floor appliance or a built-in appliance. Preferably, the domestic cooking appliance is a domestic gas cooker. By way of example, the domestic cooking appliance may have four such gas burners. The gas regulating valve is fixed by tightening to a main gas duct of the domestic cooking appliance and connected to the fluids through a gas supply duct with the gas burner associated with it. Likewise, an ignition device may also be associated with each gas burner, which may be integrated in the gas regulating valve, and an ignition element arranged directly next to the gas burner, for example, a spark plug.
    Other possible implementations of the gas burner and / or of the domestic cooking apparatus also comprise combinations not explicitly mentioned of features or embodiments described above or below, in relation to the embodiments. Here, the person skilled in the art will also add particular aspects such as improvements or complements to the respective basic form of the gas burner and / or of the domestic cooking appliance.
    Other configurations and advantageous aspects of the gas burner and / or of the domestic cooking appliance are subject to the secondary claims, as well as of the examples of embodiment of the gas burner and / or of the domestic cooking appliance described below. Then the gas burner and / or the cooking appliance


    domestic are explained in more detail by means of preferred embodiments, with reference to the attached figures.
    Fig. 1 shows a schematic view of an embodiment of a domestic cooking appliance;
    Fig. 2 shows a schematic sectional view of an embodiment of a gas burner for the domestic cooking appliance according to figure 1;
    Fig. 3 shows another schematic section view of the gas burner according to figure 2,
    Fig. 4 shows a schematic partial sectional view in perspective of a shape
    of realization of a gas injector for the gas burner according to figure 2;
    Y
    Fig. 5 shows a schematic sectional view of the gas injector according to the figure
    Four.
    In the figures, the same or equal function elements have been provided with the same reference symbols, as long as nothing else is indicated.
    Figure 1 shows a schematic view of an embodiment of a domestic cooking appliance 1. The domestic cooking appliance 1 is a gas cooker or domestic gas cooker., And can be a built-in appliance or a floor appliance. The domestic cooking appliance 1 comprises several gas burners 2. The amount of gas burners 2 may be as desired. By way of example, four gas burners 3 may be provided. Each gas burner 2 is associated with a gas control valve or gas regulating valve 3, by means of which it is possible to connect, disconnect and regulate progressively the fuel gas stream supplied to the respective gas burner 2 continues.
    Figures 2 and 3 show in each case a schematic sectional view of an embodiment of a gas burner 2 for the domestic cooking appliance.
    1. The gas burner 2 comprises a burner housing 4. Preferably, the burner housing 4 is made of an aluminum or magnesium alloy. In addition, the burner housing 4 comprises a lower burner part 5 that rests on the cooking field plate or cover plate 6. The cover plate 6 can also be called an upper plate and is, for example, a metal plate or ceramic hob. All gas burners 2 of the appliance


    domestic cooking 1 are fixed to the cover plate 6; that is, a common cover plate 6 is assigned to all gas burners 2.
    The lower part of burner 5 is made symmetrically rotationally to the central or symmetry axis M2 of the gas burner 2. A tubular mixing chamber 7 is provided in the center of the lower part of burner 5. The mixing chamber 7 is also made symmetrically rotationally to the central axis M2. The mixing chamber 7 is provided to mix the combustible gas B, for example, natural gas, with pure air or primary air L. On the upper side of the lower burner part 5 a burner lid 8 is supported.
    Between the burner cover 8 and the lower part of the burner 5 a gas distributor chamber 9 is provided for uniformly distributing a primary air / fuel gas mixture formed in the mixing chamber 7 between multiple gas outlet openings 10 provided in the edge of the burner lid 8. The amount of gas outlet openings 10 may be as desired. The gas outlet openings 10 are arranged evenly distributed around the perimeter of the burner lid 8. The burner lid 8 is also made rotationally symmetrically to the central axis M2.
    Thanks to the gas distributor chamber 9, the primary air / fuel gas mixture generated in the mixing chamber 7 is uniformly distributable between the gas outlet openings 10. Additionally, the intermingling of the primary air L can be further improved with the combustible gas B in the gas distributor chamber 9; that is to say, in the mixing chamber 7 a premix of the combustible gas B with the primary air L can take place, and in the gas distribution chamber 9 the intermingling can continue.
    The burner housing 4 further comprises an injector holder 11. The injector holder 11 is disposed under the cover plate 6. By way of example, the cover plate 6 can be immobilized between the lower part of burner 5 and the injector holder 11. For this, an opening can be provided on the cover plate 6. The injector holder 11 has an annular fixing section 12, which is fixedly connected to the lower part of the burner 5. For this, for example, on the outer side of the mixing chamber 7, an external thread may be provided. , which is screwed into a corresponding internal thread of the fixing section
    12.


    The injector holder 11 further comprises an injector housing section 13, which is connected in one piece with the fixing section 12 through a wing section 14. Specifically, the fixing section 12, the housing section of injector 13, and the wing section 14 are made in one piece in terms of the material. The injector holder 11, the burner bottom 5, and the burner cap 8 can be made, for example, as die-cast aluminum components. In this way, the gas burner 2 can be manufactured economically in large quantities.
    Also, the injector holder 11 comprises a fuel gas channel 15, provided in the injector housing section 13, for supplying the fuel gas B to a gas injector 16. By means of the gas injector 16, the fuel gas B can be injected into the mixing chamber 7. Between the gas injector 16 and the mixing chamber 7, a first annular, circulating primary air inlet 17 is provided. The gas injector 16 is disposed away from the lower edge 18 of the mixing chamber 7, that is, it is completely positioned outside the mixing chamber 7. When the fuel gas B is injected through the gas injector 16 into the mixing chamber mixture 7, through the first primary air inlet 17 primary air is sucked laterally L. Therefore, the gas injector 16 causes a Venturi effect.
    In figures 4 and 5, an embodiment of the gas injector 16 is shown. The gas injector 16 is also rotationally symmetrically made to the central axis M2, and comprises a cylindrical base body 19 which is preferably made of a material metal. Specifically, the base body 19 can be made of brass. The base body 19 has an optional bevel 20 directed towards the lower edge 18 of the mixing chamber 7. The bevel 20 can enclose with the central axis M2, for example, an angle of 45 °, and facilitates that the primary air L flows to the inside the mixing chamber 7 passing next to the gas injector 16.
    The gas injector 16 further comprises a second primary air inlet 21 guided by the center thereof. Through the second primary air inlet 21, primary air L is also sucked and supplied to the mixing chamber 7. The second primary air inlet 21 is a hole provided in the center of the base body 19, narrows in the direction of the current R of the primary air L at least once and then widens again in the direction of the current R. Specifically, the second primary air inlet 21 comprises an inlet section 22 that conically narrows in the direction of the current R of the primary air L, an outlet section 23 that widens conically in the direction of the current


    R, which is directed towards the mixing chamber 7, and a cylindrical intermediate section 24 disposed between the inlet section 22 and the outlet section 23.
    The expression that "the inlet section 22 narrows conically in the direction of the current R of the primary air" includes the concept that the cross section, or the surface of the cross section of the inlet section 22 be reduced in the direction of the current R. The expression consisting in that "the outlet section 23 conically widens in the direction of the current R" includes the concept that the cross section, or the surface of the section cross section of the output section 23 increase in the direction of the current
    A. Preferably, the intermediate section 24 is cylindrical with a circular base surface.
    Inlet section 22, outlet section 23, and intermediate section 24 form an outer wall 25 of the second primary air inlet 21. As shown in Figures 2 and 3, the second primary air inlet 21 may be also carried out at least partially in the injector holder 11. By way of example, a suction section 26 is provided next to the injector housing section 13 of the injector holder 11, which narrows in the direction of the current R of the primary air L, which flows into a cylindrical supply section 27. The primary air L is supplied to the gas injector 16 by the supply section 27. The supply section 27 is arranged here between the inlet section 22 and the suction section 26.
    The gas injector 16 also has an annular fuel gas outlet opening 28. The term "annular" includes the concept that the fuel gas outlet opening 28 circulates completely around the central axis M2. The fuel gas outlet opening 28 is in the form of a groove, and flows directly into the second primary air inlet 21. Here, the fuel gas outlet opening 28 passes through the outer wall 25 of the second primary air inlet 21.
    In the base body 19 of the gas injector 16, an annular fuel gas distributor channel 29 is also provided, which circulates completely around the central axis M2 and is symmetrically rotated with respect to it, to distribute the combustible gas evenly B. The fuel gas distributor channel 29 narrows in the direction of the fuel gas outlet opening 28, that is, it has a larger cross-section than the fuel gas outlet opening
    28. Between the fuel gas outlet opening 28 and the fuel gas distributor channel 29 an arcuate shaped corrugated connection channel 30 is provided.


    The fuel gas outlet opening 28 flows directly into the second primary air inlet 21 after the intermediate section 24 of the second primary air inlet 21. Specifically, the fuel gas outlet opening 28 flows into the second air inlet. primary 21 between intermediate section 24 and exit section 23.
    As shown in Figures 2 and 3, the fuel gas channel 15 provided in the injector housing section 13 comprises a fuel gas distributor channel 31, which circulates annularly around the supply section 27 and the suction section 26, whereby the fuel gas B is supplied to the fuel gas distributor channel 29 of the gas injector 16. For this, one or more connection channels 32 may be provided in the injector housing section 13. The connection channels 32 can be made as drills.
    Next, the functionality of the gas burner 2 is explained. During the operation of the gas burner 2, fuel gas B is supplied through the fuel gas channel 15. Fuel gas B flows annularly into the second inlet of primary air 21 through the fuel gas outlet opening 28. In this way, the primary air L is sucked through the suction section 26 into the gas injector 16 and, specifically, into the second primary air inlet 21. As the second primary air inlet 21 narrows in the direction of the current R of the primary air L, the primary air L is accelerated and mixed in the gas injector 16 with the fuel gas B at least partially . Upon leaving the premixed primary air / combustible gas mixture from the gas injector 16, through the first primary air inlet 17 another primary air L is sucked laterally into the mixing chamber 7. In the mixing chamber 7, produces another intermingling of the combustible gas B with the primary air L.
    When two primary air inlets 17, 21 are provided, a larger amount of primary air L can be sucked in comparison to the known gas burners. In this way, a greater amount of combustible gas B can also be burned and, therefore, increase the power of the gas burner 2 compared to the known gas burners. The premixing of the primary air L with the combustible gas B can already be carried out in the gas injector 16 in a very limited construction space. In this way, the gas burner 2 can be built lower compared to the known gas burners. The combustion of the combustible gas B is improved, since the intermingling of the combustible gas B with the air


    Primary L is more homogeneous. The emissions are reduced, and the efficiency of the gas burner 2 is increased.


    Reference symbols
    one Domestic cooking appliance
    2 Gas burner
    3 Gas regulating valve
    4 Burner housing
    Burner bottom
    6 Cover plate
    7 Mixing chamber
    8 Burner lid
    9 Gas distributor chamber
    Gas outlet opening
    eleven Injector holder
    12 Fixing section
    13 Injector housing section
    14 Wing section
    Fuel gas channel
    16 Gas injector
    17 Primary air inlet
    18 Lower edge
    19 Base body
    Bezel
    twenty-one Primary air inlet
    22 Input section
    2. 3 Output section
    24 Intermediate section
    Exterior wall
    26 Suction section
    27 Supply section
    28 Fuel gas outlet opening
    29 Fuel gas distributor channel
    Connection channel
    31 Fuel gas distributor channel
    32 Connection channel
    B Fuel gas
    L Primary air
    M2  Central axis

    R Current direction

    权利要求:
    Claims (8)
    [1]
    1. Gas burner (2) for a domestic cooking appliance (1), with a burner housing (4) that has a mixing chamber (7) for mixing fuel gas (B) with primary air (L), and with a gas injector (16), housed
    5 in the burner housing (4), to inject the combustible gas (B) into the mixing chamber (7), where, between the gas injector (16) and the mixing chamber (7), a first annular primary air inlet (17) to suck the primary air (L), where the gas injector (16) has a second primary air inlet (21), guided therethrough, to suck
    10 the primary air (L), where the second primary air inlet (21) narrows at least once and widens again in the direction of the current (R) of the primary air (L) through the second inlet of primary air (21), and where the gas injector (16) has an annular fuel gas outlet opening (28) that flows directly into the second inlet
    15 primary air (21).
    [2]
    2. Gas burner (2) according to claim 1, characterized in that the fuel gas outlet opening (28) crosses an outer wall (25) of the second primary air inlet (21).
    [3]
    3. Gas burner (2) according to claims 1 or 2, characterized in that the gas injector (16) has an annular fuel gas distributor channel (29), wherein the fuel gas distributor channel (29) narrows in the direction of the fuel gas outlet opening (28).
    [4]
    4. Gas burner (2) according to one of claims 1-3, characterized in that the second primary air inlet (21) has an inlet section (22) that conically narrows in the direction of the current (R) of the primary air (L), an outlet section (23) that widens conically
    30 in the direction of the current (R), which is directed towards the mixing chamber (7), and a cylindrical intermediate section (24) disposed between the inlet section (22) and the outlet section (23).
    [5]
    5. Gas burner (2) according to claim 4, characterized in that the fuel gas outlet opening (28) flows into the second inlet

    of primary air (21) between the intermediate section (24) and the outlet section (23).
    [6]
    6. Gas burner (2) according to one of claims 1-5, characterized
    5 because the gas injector (16) is made symmetrically rotationally to the central axis (M2), where the second primary air intake
    (21) is also performed symmetrically rotationally to the central axis (M2).
    Gas burner (2) according to one of claims 1-6, characterized in that the burner housing (4) comprises a lower burner part (5), which has the mixing chamber (7), and a support of injector (11), connected with the lower part of burner (5), in which the gas injector (16) is housed.
    [8]
    8. Gas burner (2) according to claim 7, characterized in that the injector holder (11) has a fuel gas channel (15) for supplying the combustible gas (B) to the gas injector (16).
    A gas burner (2) according to claims 7 or 8, characterized in that the second primary air inlet (21) is made at least partially in the injector holder (11).
    [10]
    10. Domestic cooking appliance (1), in particular, gas cooker, with a gas burner (2) according to one of claims 1-9.


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    同族专利:
    公开号 | 公开日
    WO2017208095A1|2017-12-07|
    CN109154437A|2019-01-04|
    ES2645299B1|2018-09-12|
    EP3465005B1|2020-03-11|
    CN109154437B|2020-09-01|
    US20200378597A1|2020-12-03|
    EP3465005A1|2019-04-10|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    JPH01208608A|1988-02-12|1989-08-22|Kitazawa Sangyo Kk|Pressurized combustion type burner utilizing self-restored gas pressure|
    JP2013120020A|2011-12-08|2013-06-17|Rinnai Corp|Gas nozzle for cooking stove burner|
    KR20160023677A|2013-06-26|2016-03-03|린나이가부시기가이샤|Stove burner|
    GB224763A|1924-01-21|1924-11-20|Harry Hayden Dodge|Improvements in low pressure gas burners|
    DE4421957A1|1994-06-23|1996-01-04|Buderus Heiztechnik Gmbh|High premix atmospheric gas burner|
    PL2359061T3|2008-12-12|2019-02-28|Sabaf S.P.A.|Gas burner for domestic cookers|
    CN101852436B|2009-03-19|2013-10-02|深圳市爱可机器人技术有限公司|Blast injection gas burner|
    CN102278757A|2011-08-10|2011-12-14|大连经济技术开发区水国燃烧器有限公司|Semi-injection straight-flow-type flat flame combustor|
    CN202419665U|2011-12-14|2012-09-05|台湾樱花股份有限公司|Mixing device of gas furnace|ES2776748A1|2019-01-30|2020-07-31|Bsh Electrodomesticos Espana Sa|GAS BURNER FOR A GAS COUNTERTOP |
    法律状态:
    2018-09-12| FG2A| Definitive protection|Ref document number: 2645299 Country of ref document: ES Kind code of ref document: B1 Effective date: 20180912 |
    优先权:
    申请号 | 申请日 | 专利标题
    ES201630747A|ES2645299B1|2016-06-03|2016-06-03|GAS BURNER AND DOMESTIC COOKING APPLIANCE|ES201630747A| ES2645299B1|2016-06-03|2016-06-03|GAS BURNER AND DOMESTIC COOKING APPLIANCE|
    CN201780034136.6A| CN109154437B|2016-06-03|2017-05-12|Gas burner and household cooker|
    US16/305,082| US20200378597A1|2016-06-03|2017-05-12|Gas burner and domestic cooking appliance|
    EP17731281.6A| EP3465005B1|2016-06-03|2017-05-12|Gas burner and domestic cooking appliance|
    PCT/IB2017/052788| WO2017208095A1|2016-06-03|2017-05-12|Gas burner and domestic cooking appliance|
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