公开(公告)号：US20160290636A1

公开(公告)日：2016-10-06

申请号：US15068730

申请日：2016-03-14

Applicant: Emerson Electric Co.

Inventor： Mike C. Santinanavat ,  John Kopp ,  Christina M. Gillam

IPC: F23D14/82 ,  F24H9/18 ,  F23D14/58

Abstract: Disclosed are exemplary embodiments of apparatus and methods for arresting flame at a gas burner. In an exemplary embodiment, an apparatus for use in burning a gas fuel generally includes a flame arrester device having a screen portion configured for placement between a gas orifice and a burner. The flame arrester device is configured to allow gas emitted from the gas orifice to pass through the screen portion to enter the burner. The flame arrester device is further configured to arrest a flame from the burner before the flame reaches the gas orifice.

Abstract translation: 公开了用于在气体燃烧器处阻止火焰的装置和方法的示例性实施例。 在示例性实施例中，用于燃烧气体燃料的装置通常包括阻火器装置，其具有被配置用于放置在气体孔口和燃烧器之间的屏幕部分。 阻火器装置构造成允许从气体孔口排放的气体通过筛网部分进入燃烧器。 阻火器装置进一步构造成在火焰到达气体孔之前阻止来自燃烧器的火焰。

公开(公告)号：US10578302B2

公开(公告)日：2020-03-03

申请号：US15068730

申请日：2016-03-14

Applicant: Emerson Electric Co.

Inventor： Mike C. Santinanavat ,  John Kopp ,  Christina M. Gillam

IPC: F23D14/58 ,  F23D14/82 ,  F24H9/18 ,  F23D14/06

Abstract: Disclosed are exemplary embodiments of apparatus and methods for arresting flame at a gas burner. In an exemplary embodiment, an apparatus for use in burning a gas fuel generally includes a flame arrester device having a screen portion configured for placement between a gas orifice and a burner. The flame arrester device is configured to allow gas emitted from the gas orifice to pass through the screen portion to enter the burner. The flame arrester device is further configured to arrest a flame from the burner before the flame reaches the gas orifice.

公开(公告)号：US20140360484A1

公开(公告)日：2014-12-11

申请号：US14467692

申请日：2014-08-25

Applicant: Emerson Electric Co.

Inventor： Mark H. Stark ,  Mike C. Santinanavat ,  Ryan D. Jensen ,  John F. Broker

IPC: F24H9/20 ,  F16K1/44 ,  G01L9/00 ,  F16K31/06

CPC classification number: F24H9/2085 ,  F16K1/443 ,  F16K31/0658 ,  F16K37/0058 ,  F23K5/007 ,  F23N1/005 ,  F23N2025/04 ,  F23N2035/14 ,  F23N2035/20 ,  F23N2035/24 ,  G01L9/0076 ,  G05D16/2013 ,  G05D16/2022 ,  Y10T137/7761 ,  Y10T137/8326 ,  Y10T137/87981 ,  Y10T137/88038

Abstract: A valve apparatus includes substantially co-aligned first and second valve seats and substantially co-aligned first and second valve members. The first valve member is moveable relative to the first valve seat between at least an open position in which the first valve member is spaced from the first valve seat and a closed position in which the first valve member is seated against the first valve seat. The second valve member is moveable relative to the second valve seat between at least an open position in which the second valve member is spaced from the second valve seat and a closed position in which the second valve member is seated against the second valve seat. An armature is operable for moving the first and second valve members, in response to a magnetic field generated by a coil.

Abstract translation: 阀装置包括基本上对齐的第一和第二阀座以及基本上对齐的第一和第二阀构件。 第一阀构件可在至少一个打开位置与第一阀座之间相对于第一阀座移动，其中第一阀构件与第一阀座间隔开，而关闭位置，第一阀构件抵靠第一阀座抵靠。 第二阀构件可在至少一个第二阀构件与第二阀座间隔开的打开位置和第二阀构件抵靠第二阀座抵靠的关闭位置之间相对于第二阀座移动。 电枢可操作用于响应于线圈产生的磁场而移动第一和第二阀构件。

公开(公告)号：US20140283929A1

公开(公告)日：2014-09-25

申请号：US14299629

申请日：2014-06-09

Applicant: Emerson Electric Co.

Inventor： Mike C. Santinanavat ,  Shweta Annapurani Panimadai Ramaswamy ,  John F. Broker ,  Mark H. Stark

IPC: F16K31/165 ,  G05D7/06

CPC classification number: F16K31/165 ,  F23N1/002 ,  F23N2035/14 ,  F23N2035/16 ,  F23N2035/24 ,  G05D7/0617 ,  Y10T137/7761

Abstract: A stepper-motor gas valve control is disclosed that includes a main diaphragm in a chamber that controllably displaces a valve relative to an opening in response to changes in pressure, to adjust fuel flow through the valve. A servo-regulator diaphragm is provided to regulate flow to the main diaphragm, to thereby control the rate of fuel flow. A stepper motor is configured to move in a stepwise manner to displace the servo-regulator diaphragm, to control fluid flow to the main diaphragm. A controller mounted on the stepper-motor regulated gas valve control receives and converts an input control signal from a heating system to a reference value between 0 and 5 volts, and selects a corresponding motor step value. The control responsively moves the stepper-motor in a step wise manner to displace the servo-regulator diaphragm and thereby regulates the rate of fuel flow through the valve.

Abstract translation: 公开了一种步进电动机气门控制装置，其包括在腔室中的主隔膜，其响应于压力变化可控制地相对于开口移动阀门，以调节通过阀门的燃料流量。 提供伺服调节器膜片以调节流向主隔膜的流量，从而控制燃料流量。 步进电机被配置为逐步移动以移动伺服调节器膜片，以控制流向主隔膜的流体。 安装在步进电动机调节的气体阀控制器上的控制器接收并将来自加热系统的输入控制信号转换为0至5伏特之间的参考值，并选择相应的电机步进值。 控制器以逐步方式响应地移动步进电机以移动伺服调节器隔膜，从而调节通过阀门的燃料流量。

公开(公告)号：US08752577B2

公开(公告)日：2014-06-17

申请号：US13775512

申请日：2013-02-25

Applicant: Emerson Electric Co.

Inventor： Mike C. Santinanavat ,  William P. Butler ,  Jagdish C. Atri ,  Ryan D. Jensen

IPC: F16K31/12

CPC classification number: F23N1/002 ,  F16K31/128 ,  F16K31/402 ,  F16K31/42 ,  G05D16/202 ,  Y10T137/7761 ,  Y10T137/7764

Abstract: A stepper-motor gas valve control is disclosed that includes a main diaphragm in a chamber that controllably displaces a valve relative to an opening in response to changes in pressure, to adjust fuel flow through the valve. A servo-regulator diaphragm is provided to regulate flow to the main diaphragm, to thereby control the rate of fuel flow. A stepper motor is configured to move in a stepwise manner to displace the servo-regulator diaphragm, to control fluid flow to the main diaphragm. A controller mounted on the stepper-motor regulated gas valve control receives and converts an input control signal from a heating system to a reference value between 0 and 5 volts, and selects a corresponding motor step value. The control responsively moves the stepper-motor in a step wise manner to displace the servo-regulator diaphragm and thereby regulates the rate of fuel flow through the valve.

Abstract translation: 公开了一种步进电动机气门控制装置，其包括在腔室中的主隔膜，其响应于压力变化可控制地相对于开口移动阀门，以调节通过阀门的燃料流量。 提供伺服调节器膜片以调节流向主隔膜的流量，从而控制燃料流量。 步进电机被配置为逐步移动以移动伺服调节器膜片，以控制流向主隔膜的流体。 安装在步进电动机调节的气体阀控制器上的控制器接收并将来自加热系统的输入控制信号转换为0至5伏特之间的参考值，并选择相应的电机步进值。 控制器以逐步方式响应地移动步进电机以移动伺服调节器隔膜，从而调节通过阀门的燃料流量。

公开(公告)号：US09038658B2

公开(公告)日：2015-05-26

申请号：US14299629

申请日：2014-06-09

Applicant: Emerson Electric Co.

Inventor： Mike C. Santinanavat ,  Shweta Annapurani Panimadai Ramaswamy ,  John F. Broker ,  Mark H. Stark

IPC: F16K31/12 ,  F16K31/165 ,  F23N1/00 ,  G05D7/06

CPC classification number: F16K31/165 ,  F23N1/002 ,  F23N2035/14 ,  F23N2035/16 ,  F23N2035/24 ,  G05D7/0617 ,  Y10T137/7761

Abstract: A stepper-motor gas valve control is disclosed that includes a main diaphragm in a chamber that controllably displaces a valve relative to an opening in response to changes in pressure, to adjust fuel flow through the valve. A servo-regulator diaphragm is provided to regulate flow to the main diaphragm, to thereby control the rate of fuel flow. A stepper motor is configured to move in a stepwise manner to displace the servo-regulator diaphragm, to control fluid flow to the main diaphragm. A controller mounted on the stepper-motor regulated gas valve control receives and converts an input control signal from a heating system to a reference value between 0 and 5 volts, and selects a corresponding motor step value. The control responsively moves the stepper-motor in a step wise manner to displace the servo-regulator diaphragm and thereby regulates the rate of fuel flow through the valve.

Abstract translation: 公开了一种步进电动机气门控制装置，其包括在腔室中的主隔膜，其响应于压力变化可控制地相对于开口移动阀门，以调节通过阀门的燃料流量。 提供伺服调节器膜片以调节流向主隔膜的流量，从而控制燃料流量。 步进电机被配置为逐步移动以移动伺服调节器膜片，以控制流向主隔膜的流体。 安装在步进电动机调节的气体阀控制器上的控制器接收并将来自加热系统的输入控制信号转换为0至5伏特之间的参考值，并选择相应的电机步进值。 控制器以逐步方式响应地移动步进电机以移动伺服调节器隔膜，从而调节通过阀门的燃料流量。

公开(公告)号：US20130164696A1

公开(公告)日：2013-06-27

申请号：US13775512

申请日：2013-02-25

Applicant: Emerson Electric Co.

Inventor： Mike C. Santinanavat ,  William P. Butler ,  Jagdish C. Atri ,  Ryan D. Jensen

IPC: F23N1/00

CPC classification number: F23N1/002 ,  F16K31/128 ,  F16K31/402 ,  F16K31/42 ,  G05D16/202 ,  Y10T137/7761 ,  Y10T137/7764

Abstract: A stepper-motor gas valve control is disclosed that includes a main diaphragm in a chamber that controllably displaces a valve relative to an opening in response to changes in pressure, to adjust fuel flow through the valve. A servo-regulator diaphragm is provided to regulate flow to the main diaphragm, to thereby control the rate of fuel flow. A stepper motor is configured to move in a stepwise manner to displace the servo-regulator diaphragm, to control fluid flow to the main diaphragm. A controller mounted on the stepper-motor regulated gas valve control receives and converts an input control signal from a heating system to a reference value between 0 and 5 volts, and selects a corresponding motor step value. The control responsively moves the stepper-motor in a step wise manner to displace the servo-regulator diaphragm and thereby regulates the rate of fuel flow through the valve.

Abstract translation: 公开了一种步进电动机气门控制装置，其包括在腔室中的主隔膜，其响应于压力变化可控制地相对于开口移动阀门，以调节通过阀门的燃料流量。 提供伺服调节器膜片以调节流向主隔膜的流量，从而控制燃料流量。 步进电机被配置为逐步移动以移动伺服调节器膜片，以控制流向主隔膜的流体。 安装在步进电动机调节的气体阀控制器上的控制器接收并将来自加热系统的输入控制信号转换为0至5伏特之间的参考值，并选择相应的电机步进值。 控制器以逐步方式响应地移动步进电机以移动伺服调节器隔膜，从而调节通过阀门的燃料流量。