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1. 发明授权

US08490433B2 Method for applying ultrasonic acoustic energy to a glass melt 有权
标题翻译：将超声波能量施加到玻璃熔体的方法
公开(公告)号：US08490433B2
公开(公告)日：2013-07-23
申请号：US13036668
申请日：2011-02-28
申请人： Daniel Robert Boughton , Scott Michael Jarvis , Jonghak Kim , Zhiqiang Shi
发明人： Daniel Robert Boughton , Scott Michael Jarvis , Jonghak Kim , Zhiqiang Shi
IPC分类号： C03B5/02
CPC分类号： C03B5/18 , B01F11/0258 , B06B1/0246 , B06B1/0253 , C03B5/225
摘要： A method of applying ultrasonic acoustic energy to a glass melt by monitoring a glass melt temperature TY and transferring ultrasonic acoustic energy from an ultrasonic transducer to the glass melt at a controller power PC and a controller frequency vC through an ultrasonic probe positioned in the glass melt is provided. According to the method, the controller power PC is controlled in response to at least (i) the monitored glass melt temperature TY and (ii) a reference glass melt temperature TR. The controller frequency vC is controlled in response to at least (i) one or more input parameters from a temperature-viscosity curve characterizing the glass melt, (ii) one or more input parameters from one or more temperature dependent impedance response models of the glass melt, and (iii) ΔZ, where ΔZ represents a degree to which an impedance condition ZY of the ultrasonic probe differs from a reference impedance ZR when the ultrasonic probe is positioned in the glass melt. Systems for applying ultrasonic acoustic energy to glass melts are also contemplated.
摘要翻译：通过监测玻璃熔体温度TY并将超声波能量从控制器电源PC和控制器频率vC通过定位在玻璃熔体中的超声波探头传送到玻璃熔体，将超声波能量施加到玻璃熔体的方法被提供。根据该方法，响应于至少（i）监测的玻璃熔体温度TY和（ii）参考玻璃熔体温度TR来控制控制器功率PC。响应于至少（i）来自表征玻璃熔体的温度 - 粘度曲线的一个或多个输入参数来控制控制器频率vC，（ii）来自玻璃的一个或多个温度依赖阻抗响应模型的一个或多个输入参数熔融，和（iii）DeltaZ，其中DeltaZ表示当超声波探头位于玻璃熔体中时超声波探头的阻抗条件ZY与参考阻抗ZR不同的程度。也可以考虑将超声波能量应用于玻璃熔体的系统。

2. 发明申请

US20120216576A1 ULTRASONIC TRANSDUCER ASSEMBLY FOR APPLYING ULTRASONIC ACOUSTIC ENERGY TO A GLASS MELT 有权
标题翻译：用于将超声声能量应用于玻璃熔体的超声波传感器组件
公开(公告)号：US20120216576A1
公开(公告)日：2012-08-30
申请号：US13036568
申请日：2011-02-28
申请人： Daniel Robert Boughton , Scott Michael Jarvis , Jonghak Kim , Zhiqiang Shi
发明人： Daniel Robert Boughton , Scott Michael Jarvis , Jonghak Kim , Zhiqiang Shi
IPC分类号： C03B5/225 , G01N29/24
CPC分类号： C03B5/18 , B01F11/0258 , C03B5/225
摘要： An ultrasonic transducer assembly is provided comprising an ultrasonic transducer, an ultrasonic booster, an ultrasonic probe, and a booster cooling unit. The ultrasonic booster is connected to the ultrasonic transducer to amplify acoustic energy generated by the ultrasonic transducer and transfer the amplified acoustic energy to the ultrasonic probe. A seated end of the ultrasonic probe is positioned in a probe seat of the ultrasonic booster. The booster cooling unit is positioned to regulate the temperature of the probe seat of the ultrasonic booster such that the assembly supports a temperature dependent press-fit engagement of the seated end of the ultrasonic probe and the probe seat of the ultrasonic booster. The temperature dependent press-fit engagement is such that the seated end of the ultrasonic probe can be reversibly moved in and out of the probe seat at an elevated temperature THOT and is fixed in the probe seat at room temperature TCOLD.
摘要翻译：提供超声换能器组件，其包括超声换能器，超声波助力器，超声波探头和增压器冷却单元。超声波助力器连接到超声波换能器，以放大由超声换能器产生的声能并将放大的声能传递到超声波探头。超声波探头的座位端位于超音波助力器的探针座中。放大器冷却单元被定位成调节超声波助力器的探针座的温度，使得组件支持超声波探头的就座端和超声波助力器的探针座的温度相关的压配合接合。温度依赖的压配合使得超声波探头的就座端可以在升高的温度THOT可反复地移入和移出探针座，并在室温TCOLD固定在探针座中。

3. 发明授权

US09061928B2 Ultrasonic transducer assembly for applying ultrasonic acoustic energy to a glass melt 有权
标题翻译：用于将超声波能量施加到玻璃熔体的超声换能器组件
公开(公告)号：US09061928B2
公开(公告)日：2015-06-23
申请号：US13036568
申请日：2011-02-28
申请人： Daniel Robert Boughton , Scott Michael Jarvis , Jonghak Kim , Zhiqiang Shi
发明人： Daniel Robert Boughton , Scott Michael Jarvis , Jonghak Kim , Zhiqiang Shi
IPC分类号： B01F11/02 , C03B5/18 , C03B5/225
CPC分类号： C03B5/18 , B01F11/0258 , C03B5/225
摘要： An ultrasonic transducer assembly includes an ultrasonic transducer, an ultrasonic booster, an ultrasonic probe, and a booster cooling unit. The ultrasonic booster is connected to the ultrasonic transducer to amplify acoustic energy generated by the ultrasonic transducer and transfer the amplified acoustic energy to the ultrasonic probe. A seated end of the ultrasonic probe is positioned in a probe seat of the ultrasonic booster. The booster cooling unit is positioned to regulate the temperature of the probe seat of the ultrasonic booster such that the assembly supports a temperature dependent press-fit engagement of the seated end of the ultrasonic probe and the probe seat of the ultrasonic booster. The temperature dependent press-fit engagement is such that the seated end of the ultrasonic probe can be reversibly moved in and out of the probe seat at an elevated temperature THOT and is fixed in the probe seat at room temperature TCOLD.
摘要翻译：超声波换能器组件包括超声波换能器，超声波助力器，超声波探头和增压器冷却单元。超声波助力器连接到超声波换能器，以放大由超声换能器产生的声能并将放大的声能传递到超声波探头。超声波探头的座位端位于超音波助力器的探针座中。放大器冷却单元被定位成调节超声波助力器的探针座的温度，使得组件支持超声波探头的就座端和超声波助力器的探针座的温度相关的压配合接合。温度依赖的压配合使得超声波探头的就座端可以在升高的温度THOT可反复地移入和移出探针座，并在室温TCOLD固定在探针座中。

4. 发明申请

US20120216567A1 METHOD AND APPARATUS FOR APPLYING ULTRASONIC ACOUSTIC ENERGY TO A GLASS MELT 有权
标题翻译：将超声波能量应用于玻璃熔体的方法和装置
公开(公告)号：US20120216567A1
公开(公告)日：2012-08-30
申请号：US13036668
申请日：2011-02-28
申请人： Daniel Robert Boughton , Scott Michael Jarvis , Jonghak Kim , Zhiqiang Shi
发明人： Daniel Robert Boughton , Scott Michael Jarvis , Jonghak Kim , Zhiqiang Shi
IPC分类号： C03B5/16
CPC分类号： C03B5/18 , B01F11/0258 , B06B1/0246 , B06B1/0253 , C03B5/225
摘要： A method of applying ultrasonic acoustic energy to a glass melt by monitoring a glass melt temperature TY and transferring ultrasonic acoustic energy from an ultrasonic transducer to the glass melt at a controller power PC and a controller frequency vC through an ultrasonic probe positioned in the glass melt is provided. According to the method, the controller power PC is controlled in response to at least (i) the monitored glass melt temperature TY and (ii) a reference glass melt temperature TR. The controller frequency vC is controlled in response to at least (i) one or more input parameters from a temperature-viscosity curve characterizing the glass melt, (ii) one or more input parameters from one or more temperature dependent impedance response models of the glass melt, and (iii) ΔZ, where ΔZ represents a degree to which an impedance condition ZY of the ultrasonic probe differs from a reference impedance ZR when the ultrasonic probe is positioned in the glass melt. Systems for applying ultrasonic acoustic energy to glass melts are also contemplated.
摘要翻译：通过监测玻璃熔体温度TY并将超声波能量从控制器电源PC和控制器频率vC通过定位在玻璃熔体中的超声波探头传送到玻璃熔体，将超声波能量施加到玻璃熔体的方法被提供。根据该方法，响应于至少（i）监测的玻璃熔体温度TY和（ii）参考玻璃熔体温度TR来控制控制器功率PC。响应于至少（i）来自表征玻璃熔体的温度 - 粘度曲线的一个或多个输入参数来控制控制器频率vC，（ii）来自玻璃的一个或多个温度依赖阻抗响应模型的一个或多个输入参数熔融，和（iii）＆Dgr; Z，其中＆Dgr; Z表示当超声波探头位于玻璃熔体中时超声波探头的阻抗条件ZY与参考阻抗ZR不同的程度。也可以考虑将超声波能量应用于玻璃熔体的系统。

5. 发明申请

US20110023544A1 METHODS FOR MAKING A GLASS MATERIAL AND APPARATUS 有权
标题翻译：制作玻璃材料和装置的方法
公开(公告)号：US20110023544A1
公开(公告)日：2011-02-03
申请号：US12511306
申请日：2009-07-29
申请人： Jeffrey H. Ahrens , Charles M. Carter , Jonghak Kim
发明人： Jeffrey H. Ahrens , Charles M. Carter , Jonghak Kim
IPC分类号： C03B5/00
CPC分类号： C03B5/245
摘要： Methods and apparatus for making a glass material are provided. The apparatus comprises a level sensor configured to measure a level of molten glass within a glass melter, a level controller operatively connected to the level sensor, a batch material sensor configured to measure a characteristic of a quantity of batch material, an estimator operatively connected to the batch material sensor, a batch fill rate controller configured to calculate a speed command, and a batch delivery device configured to fill the glass melter. The methods comprise the steps of controlling an actual batch fill rate of batch material entering the glass melter. The step of controlling further comprises estimating a batch fill rate of batch material entering the glass melter, and controlling the actual batch fill rate based on a comparison between a predetermined batch fill rate and the estimated batch fill rate.
摘要翻译：提供了制造玻璃材料的方法和设备。该装置包括液位传感器，其被配置为测量玻璃熔化器内的熔融玻璃的水平，可操作地连接到液位传感器的液位控制器，配置成测量一批批料的特性的批量材料传感器，可操作地连接到批量材料传感器，配置为计算速度指令的批量填充率控制器，以及配置成填充玻璃熔化器的批量传送装置。这些方法包括以下步骤：控制进入玻璃熔化器的批料的实际批量填充率。控制步骤还包括估计进入玻璃熔化器的批料的批量填充率，以及基于预定批量填充率与估计批量填充率之间的比较来控制实际批量填充率。

6. 发明授权

US09790117B2 Methods for making a glass material and apparatus 有权
公开(公告)号：US09790117B2
公开(公告)日：2017-10-17
申请号：US12511306
申请日：2009-07-29
申请人： Jeffrey H Ahrens , Charles M Carter , Jonghak Kim
发明人： Jeffrey H Ahrens , Charles M Carter , Jonghak Kim
IPC分类号： C03B5/26 , C03B5/24
CPC分类号： C03B5/245
摘要： Methods and apparatus for making a glass material are provided. The apparatus comprises a level sensor configured to measure a level of molten glass within a glass melter, a level controller operatively connected to the level sensor, a batch material sensor configured to measure a characteristic of a quantity of batch material, an estimator operatively connected to the batch material sensor, a batch fill rate controller configured to calculate a speed command, and a batch delivery device configured to fill the glass melter. The methods comprise the steps of controlling an actual batch fill rate of batch material entering the glass melter. The step of controlling further comprises estimating a batch fill rate of batch material entering the glass melter, and controlling the actual batch fill rate based on a comparison between a predetermined batch fill rate and the estimated batch fill rate.

7. 发明授权

US10131497B2 Apparatus for suppressing sloshing 有权
公开(公告)号：US10131497B2
公开(公告)日：2018-11-20
申请号：US14234736
申请日：2012-07-26
申请人： Sooho Lee , Byenghee Yun , Byeongsoo Kim , Sangeon Chun , Jonghak Kim , Young-Min Lee , Jeongoh Hwang
发明人： Sooho Lee , Byenghee Yun , Byeongsoo Kim , Sangeon Chun , Jonghak Kim , Young-Min Lee , Jeongoh Hwang
IPC分类号： B65D90/52 , B63B25/08 , B65D88/34
摘要： There is provided an apparatus for suppressing sloshing. An apparatus for suppressing sloshing according to an embodiment of the present invention includes a plurality of buoyant blocks and connecting members connecting the buoyant blocks and can float on a liquid cargo in a liquid cargo storage tank, the buoyant block includes a buoyant body having buoyancy to float on liquid, a first foam member covering the buoyant body and absorbing the liquid, and a first cover covering the first foam member, and the first foam member has through-holes formed through the first foam member.

8. 发明申请

US20140144915A1 APPARATUS FOR SUPPRESSING SLOSHING 审中-公开
标题翻译：用于抑制滑雪的装置
公开(公告)号：US20140144915A1
公开(公告)日：2014-05-29
申请号：US14234736
申请日：2012-07-26
申请人： Sooho Lee , Byenghee Yun , Byeongsoo Kim , Sangeon Chun , Jonghak Kim , Young-Min Lee , Jeongoh Hwang
发明人： Sooho Lee , Byenghee Yun , Byeongsoo Kim , Sangeon Chun , Jonghak Kim , Young-Min Lee , Jeongoh Hwang
IPC分类号： B65D90/52
CPC分类号： B65D90/52 , B63B25/08 , B65D88/34 , F17C2221/033 , F17C2221/035 , F17C2223/0153 , F17C2223/0161 , F17C2223/033 , F17C2260/016 , F17C2270/0105
摘要： There is provided an apparatus for suppressing sloshing. An apparatus for suppressing sloshing according to an embodiment of the present invention includes a plurality of buoyant blocks and connecting members connecting the buoyant blocks and can float on a liquid cargo in a liquid cargo storage tank, the buoyant block includes a buoyant body having buoyancy to float on liquid, a first foam member covering the buoyant body and absorbing the liquid, and a first cover covering the first foam member, and the first foam member has through-holes formed through the first foam member.
摘要翻译：提供了用于抑制晃动的装置。根据本发明的实施例的用于抑制晃动的装置包括多个浮力块和连接浮力块的连接构件，并且可以浮在液体货物储罐中的液体货物上，浮力块包括浮力至浮力的浮力漂浮在液体上，覆盖浮力体并吸收液体的第一泡沫构件和覆盖第一泡沫构件的第一盖，并且第一泡沫构件具有穿过第一泡沫构件形成的通孔。

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