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    • 4. 发明申请
    • AIR/FUEL COMMISSIONING OF A COMBUSTION APPLIANCE
    • 空调/燃油调试燃烧器具
    • WO2018005366A1
    • 2018-01-04
    • PCT/US2017/039296
    • 2017-06-26
    • HONEYWELL INTERNATIONAL, INC
    • SENKYR, JiriVAN PROOIJEN, Frank
    • F23N1/00F23N5/00F23N5/02
    • F23D14/60F23D2208/005F23D2208/10F23N1/002F23N5/003F23N5/02F23N2025/30F23N2027/20F23N2035/14
    • A method for commissioning a gas valve assembly for controlling fuel flow to a combustion appliance. An example method for commissioning the gas valve assembly may include initiating a commissioning mode in the controller of the gas valve assembly. Once in the commissioning mode, inputting a user defined initial air to fuel (A/F) ratio, activating the combustion appliance, setting a burner load of the combustion appliance to a set burner load, inputting a desired A/F ratio for the set burner load, running the combustion appliance at the burner load with the desired A/F ratio, and observing the operation of the combustion appliance. The method may further include saving the desired A/F ratio for the set burner load to the controller of the gas valve assembly and exiting the commissioning mode.
    • 一种用于调试燃气阀组件以控制流向燃烧器具的燃料流的方法。 用于调试燃气阀组件的示例方法可以包括在燃气阀组件的控制器中启动调试模式。 一旦进入调试模式,输入用户定义的初始空燃比(A / F)比率,激活燃烧设备,将燃烧设备的燃烧器负载设置为设定的燃烧器负载,为该组输入期望的A / F比 燃烧器负载,以期望的A / F比在燃烧器负载下运行燃烧器具,并且观察燃烧器具的操作。 该方法可以进一步包括将设定的燃烧器负载的期望的A / F比率保存到燃气阀组件的控制器并退出调试模式。
    • 5. 发明申请
    • 熱媒ボイラシステム
    • 热媒锅炉系统
    • WO2017199493A1
    • 2017-11-23
    • PCT/JP2017/005437
    • 2017-02-15
    • 三浦工業株式会社
    • 宮崎 遼太
    • F24H1/22F23N5/00F23N5/02
    • 熱媒ボイラシステム(1)は、予め設定された目標温度と熱媒油温度検出部(36)により計測された熱媒検出温度との偏差に基づいて熱媒ボイラ(2)の燃焼状態を制御する燃焼制御部(71)と、熱媒ボイラ(2)が起動されたことを検知する起動検知部(72)と、起動検知部(72)により熱媒ボイラ(2)の起動が検知された時点t 0 における熱媒油温度検出部(36)による検出温度T 0 及び予め設定された単位時間あたりの昇温速度p(度/時間)に基づいて、時間t(t≧t 0 )における目標温度SP(t)を式1により設定する起動時目標温度設定部(73)と、を備える。 SP(t)=p(t-t 0 )+T 0 (式1)
    • (1)根据由热介质油温检测部(36)测量的预先设定的目标温度与热介质检测温度之间的偏差来运算热介质锅炉系统(1) 控制热介质加热器(2)的燃烧状态的燃烧控制部(71),检测热介质加热器(2)的启动的启动检测部(72),热介质锅炉 检测到的热介质油温检测部(36)在启动时刻t 0时的时刻t 0处检测到的温度T 0, (73),用于根据等式1基于温度速度p(度/秒)在时间t(t≥t<0>)设定目标温度SP(t) ,包括:a。 SP(t)= p(t-t 0)+ T 0(表达式1)
    • 6. 发明申请
    • BOILER WITH AUTOMATIC DETECTION OF OPTIMUM THICKNESS OF THE FUEL LAYER
    • 自动检测燃料层厚度最佳的锅炉
    • WO2017076375A1
    • 2017-05-11
    • PCT/CZ2016/000117
    • 2016-10-25
    • BLAZE HARMONY S.R.O.
    • HALADA, Michal
    • F23N5/02F23H13/02
    • F23N5/022F23H13/02F23N2039/02F23N2041/02F23N2041/04
    • The burning boiler with automatic detection of the optimum thickness of the basic fuel layer containing the movable bottom (6), while this movable bottom (6) of the loading area (3) is interconnected with the position sensor (19) or force sensor (26) for detecting the optimum thickness of the basic fuel layer. According to the advantageous embodiment of the invention, the position sensor (19) or the force sensor (26) is interconnected with the controller (4) which controls the combustion product: fan (1). The surfaces (6.1) of the movable bottom (6) of the loading area (3) are integral and tilted down towards the combustion product exhaust nozzle (10). The top edge of the movable bottom (6) determines the primary air supply (12) in the loading area (3). The bottom edge of the movable bottom (6) determines the secondary air supply (9) in the nozzle (10).
    • 装载区域(3)的该可移动底部(6)与该位置相互连接的燃烧锅炉具有自动检测含有可移动底部(6)的基本燃料层的最佳厚度的燃烧锅炉 传感器(19)或力传感器(26),用于检测基本燃料层的最佳厚度。 根据本发明的有利实施例,位置传感器(19)或力传感器(26)与控制燃烧产物 - 风扇(1)的控制器(4)互连。 装载区域(3)的可移动底部(6)的表面(6.1)是一体的并向下朝向燃烧产物排出喷嘴(10)倾斜。 可移动底部(6)的顶部边缘确定装载区域(3)中的主空气供应(12)。 活动底部(6)的底部边缘确定喷嘴(10)中的二次空气供应(9)。
    • 9. 发明申请
    • THERMOSTATIC VALVE
    • 恒温阀
    • WO2014064605A3
    • 2014-09-12
    • PCT/IB2013059530
    • 2013-10-22
    • CONTROLLING SAVING ENERGY ITALIA S R L
    • BESATI DAVIDEDUGNANI MASSIMOPEDRETTI LUCATAPPA MAUROVALZI GIUSEPPE
    • F23N1/00F23N5/02
    • F24C3/128F23K2900/05002F23N1/007F23N5/027F23N2035/24G05D23/02
    • The invention relates to a thermostat (10) for cooking appliances powered by gas, said thermostat (10) comprising a body (20) within which there are formed an inlet conduit (23) and an outlet conduit (24), suitable to receive a gas flow from a supply source and to supply such a gas flow to a gas burner, respectively, as well as a chamber (25) with a substantially cylindrical shape arranged in fluid communication with said inlet conduit (23). The chamber (25) is also arranged in fluid communication with said outlet conduit (24) either directly, through a main opening (70) formed at one end thereof, or indirectly, through a secondary conduit (71) that is formed in the body (20) of the thermostat (10) and reaches the outlet conduit (24) bypassing said main opening (70), said main opening and secondary conduit (70, 71) being respectively dimensioned for a maximum and a minimum flow rate of gas. The thermostat (10) further comprises a valve (80) for adjusting the gas flow rate, the valve being coaxially fitted in the chamber (25). The position of the valve (80) is controlled by an expandable member (53) of a thermostatic bulb (50) of the thermostat (10) and the valve is axially deformable beyond a predefined load threshold. Thanks to this configuration, the valve allows to compensate for dilations of the expandable member (53) under a normal operation condition, as well as to absorb axial forces exerted by the thermostat (10) knob when it is rotated in order to switch off a burner driven by the thermostat, thus minimizing the risk that these forces damage even irreparably the expandable member (53) of the thermostatic bulb (50).
    • 本发明涉及一种用于由燃气供电的烹饪器具的恒温器(10),所述恒温器(10)包括主体(20),其中形成有入口导管(23)和出口导管(24),适于接收 来自供应源的气体流和分别将这种气流供应到气体燃烧器,以及具有与所述入口管道(23)流体连通的大致圆柱形形状的腔室(25)。 腔室(25)还通过直接形成在其一端的主开口(70)或间接地通过形成在体内的次级导管(71)而直接与所述出口导管(24)流体连通 (20)并且到达绕过所述主开口(70)的出口管道(24),所述主开口和次级管道​​(70,71)分别尺寸设定为最大和最小气体流量。 恒温器(10)还包括用于调节气体流速的阀(80),阀同轴地装配在腔室(25)中。 阀(80)的位置由恒温器(10)的恒温灯泡(50)的可膨胀构件(53)控制,并且阀可轴向变形超过预定的负载阈值。 由于这种构造,阀允许在正常操作条件下补偿可膨胀构件(53)的膨胀,并且在旋转时吸收由恒温器(10)旋钮施加的轴向力,以便关闭 燃烧器由恒温器驱动,从而最小化这些力甚至不可修复地损坏恒温球(50)的可膨胀构件(53)的风险。
    • 10. 发明申请
    • THERMOSTAT
    • 温控器
    • WO2014053981A2
    • 2014-04-10
    • PCT/IB2013059000
    • 2013-09-30
    • CONTROLLING SAVING ENERGY ITALIA S R L
    • BESATI DAVIDEDUGNANI MASSIMOPEDRETTI LUCATAPPA MAUROVALZI GIUSEPPE
    • F23K5/00F23N5/02F23N5/14
    • F24C3/12F23K5/007F23K2401/201F23K2900/05002F23N5/025F23N5/14F23N5/146F23N2035/18F23N2035/24G05D23/02
    • The invention relates to a thermostat (10) for cooking appliances powered by gas, said thermostat (10) comprising a body (20) within which there are formed an inlet conduit (23) and an outlet conduit (24), suitable to receive a gas flow from a supply source and to supply such a gas flow to a gas burner, respectively, as well as a chamber (25) with a substantially cylindrical shape arranged in fluid communication with said inlet conduit (23). The chamber (25) is also arranged in fluid communication with said outlet conduit (24) either directly, through a main opening (70) formed at one end thereof, or indirectly, through a secondary conduit (71) that is formed in the body (20) of the thermostat (10) and flows into the outlet conduit (24) bypassing said main opening (70), said main opening and secondary conduit (70, 71) being respectively dimensioned for a maximum and a minimum flow rate of gas. The thermostat (10) further comprises a one-piece valve (80) for adjusting the gas flow rate, the valve being coaxially fitted in the chamber (25) and guided by its peripheral walls. Thanks to these features, the structural configuration of the thermostat body and its conduits is much more compact, functional and cheap than the structural configuration of thermostats known in the art.
    • 所述恒温器(10)包括主体(20),在所述主体(20)内形成有入口导管 来自供应源的气流以及将这种气流分别供应到气体燃烧器,以及布置成与所述入口导管(23)流体连通的基本上圆柱形的腔室(25)。 腔室(25)也布置成与所述出口导管(24)流体连通,或者直接通过形成在其一端处的主开口(70)或者间接通过形成在主体中的次级导管(71) (10)的所述主开口(20)并且绕过所述主开口(70)流入所述出口导管(24),所述主开口和所述次级导管(70,71)的尺寸分别为气体的最大和最小流速 。 恒温器(10)还包括用于调节气体流量的单件式阀(80),该阀同轴地安装在腔室(25)中并由其周壁引导。 由于这些特征,恒温器本体及其导管的结构配置比现有技术中已知的恒温器的结构配置更加紧凑,功能和便宜。