会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 2. 发明专利
    • Gas leak detection system and detection method for sealed container type heat exchanger, and governor heater system
    • 密封容器式换热器和总管加热器系统的气体泄漏检测系统及检测方法
    • JP2005134057A
    • 2005-05-26
    • JP2003372072
    • 2003-10-31
    • Tokyo Gas Co Ltd東京瓦斯株式会社
    • FUJIMORI TAKATERUMORIMIYA TOMOYASUNUMATA KAORI
    • F28F11/00
    • PROBLEM TO BE SOLVED: To quickly detect a gas leak in a sealed container of a sealed container type heat exchanger.
      SOLUTION: A gas leak detecting part 10 is provided with respect to the heat exchanger 1 comprised by providing a heat exchange part 1B communicated with gas communication pipings 2A and 2B in the sealed container 1A. The gas leak detecting part 10 is provided with a gas accumulation part 11 formed in a peak part of the sealed container 1A of the heat exchanger 1, a float 12 detecting a liquid level decline due to accumulation of leaking gas in the gas accumulation part 11, and a detecting means 13 for detecting a positional decline of the float 12 in the gas accumulation part 11. A gas leak in the sealed container 1A is detected by a detection signal of the detecting means 13.
      COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:快速检测密封容器式热交换器的密封容器中的气体泄漏。 解决方案:相对于热交换器1设置有气体泄漏检测部分10,该热交换器1包括通过在密封容器1A中提供与气体连通管道2A和2B连通的热交换部分1B。 气体泄漏检测部10设置有形成在热交换器1的密封容器1A的峰部的气体积存部11,检测由于气体聚集部11中的泄漏气体的积聚引起的液面下降的浮子12 以及检测装置13,用于检测气体积聚部11中的浮子12的位置下降。通过检测装置13的检测信号检测密封容器1A内的气体泄漏。(C) 2005年,JPO&NCIPI
    • 3. 发明专利
    • Piping facility
    • 管道设施
    • JP2005291443A
    • 2005-10-20
    • JP2004110259
    • 2004-04-02
    • Tokyo Gas Co Ltd東京瓦斯株式会社
    • NUMATA KAORIHATTORI HISASHI
    • F16L55/02F17D1/02F17D1/04
    • PROBLEM TO BE SOLVED: To secure a sufficient work space for control of maintenance, while taking into consideration miniaturization of a facility and workability at a job site, by minimizing the installation area of the facility having a soundproof facility. SOLUTION: This piping facility has a foundation part 10 having the periphery surrounded by a low wall 10a. A floor surface 40 is installed in the height vicinity of the low wall 10a in the foundation part 10. An upstream side pipe 1A and a pipe part (a first straight line pipe part 21, a second straight line pipe part 22, a bent pipe part 23, connecting pipe parts 31 and 33, and a bypass pipe part 32) connected to a downstream side pipe 1B, are arranged under the floor surface 40. A maintenance-control part including a pressure governing device is arranged in a pipe part (pipe parts 24A and 24C, and a third straight line pipe part 34) branching off onto the floor surface 40 from the pipe part, and a box 50 for covering the maintenance-control part is attached onto the low wall 10a. COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:通过最小化具有隔音设施的设施的安装面积,在考虑到设施的小型化和工作现场的可操作性的同时,确保足够的维护工作空间。

      解决方案:该管道设备具有基部10,其周边被低壁10a包围。 地面40安装在基础部10的低壁10a的高度附近。上游侧管1A和管部(第一直线管部21,第二直线管部22,弯管 连接到下游侧管1B的部分23,连接管部分31和33以及旁通管部分32)布置在地板表面40的下面。包括压力调节装置的维护控制部分布置在管部分 管部分24A和24C以及第三直线管部分34)从管部分分配到地板表面40上,并且用于覆盖维护控制部分的箱体50安装在低壁10a上。 版权所有(C)2006,JPO&NCIPI

    • 4. 发明专利
    • Pressure-reducing device, and operation deciding method for the pressure-reducing device
    • 减压装置,减压装置的运转决定方法
    • JP2008059158A
    • 2008-03-13
    • JP2006233851
    • 2006-08-30
    • Tokyo Gas Co Ltd東京瓦斯株式会社
    • KAWAHIGASHI TAKASHITATE KAZUOSHIMADA HIROOKAWASUMI SATORUNUMATA KAORIKITAMURA KOICHIFUJIWARA YUICHIKIRA HIROAKI
    • G05D16/00
    • G05D16/0602G05D16/02G05D16/0655
    • PROBLEM TO BE SOLVED: To provide a pressure-reducing device and an operation deciding method for readily deciding whether a reducing valve on the upstream side is in operating state, when a reducing valve on the downstream side breaks down. SOLUTION: The pressure-reducing device 1 is installed between an upstream side duct 3 and a downstream side duct 5, and configured by arranging a first reducing valve 10 and a second reducing valve 10' from the upstream side to the downstream side. The first reducing valve 10 and a second reducing valve 10' are direct-acting reducing valves configured similarly. The first reducing valve 10 maintains the gas pressure of the downstream side duct 5 to a first set pressure. When the gas pressure of the downstream side duct 5 does not exceed the first set pressure, the second reducing valve 10' sends gas, that is flowing through the upstream side duct 3, to the first reducing valve 10 without reducing the pressure; and when the gas pressure of the downstream side duct 5 exceeds a second set pressure value which is larger than the first set pressure, the gas pressure of the downstream side duct 5 is maintained so as not to exceed the second set pressure. Thus, a manometer 60 is installed on the connection channel 24 of the first reducing valvae 10 and the second reducing valve 10'. COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:为了提供一种减压装置和操作决定方法,用于容易地判断上游侧的减压阀是否处于运行状态,当下游侧的减压阀发生故障时。 解决方案:减压装置1安装在上游侧管道3和下游侧管道5之间,并且通过将第一减压阀10和第二减压阀10'从上游侧至下游侧 。 第一减压阀10和第二减压阀10'是类似地配置的直动式减压阀。 第一减压阀10将下游侧管道5的气体压力维持在第一设定压力。 当下游侧管道5的气体压力不超过第一设定压力时,第二减压阀10'在不降低压力的情况下将流过上游侧管道3的气体送入第一减压阀10; 并且当下游侧管道5的气体压力超过比第一设定压力大的第二设定压力值时,下游侧管道5的气体压力保持为不超过第二设定压力。 因此,压力计60安装在第一还原阀10和第二减压阀10'的连接通道24上。 版权所有(C)2008,JPO&INPIT
    • 5. 发明专利
    • Governor heater system
    • 总干事制度
    • JP2005134058A
    • 2005-05-26
    • JP2003372073
    • 2003-10-31
    • Tokyo Gas Co Ltd東京瓦斯株式会社
    • FUJIMORI TAKATERUMORIMIYA TOMOYASUNUMATA KAORI
    • F23K5/00F23N1/00
    • PROBLEM TO BE SOLVED: To provide a governor heater system capable of controlling quantity of supplied heat following fluctuation of gas communication quantity in a governor, and providing economical operation of a governor heater even when heat exchange efficiency is high.
      SOLUTION: In the governor heater 3 heating gas cooled by decompression of the governor 4, the governor heater 3 composed by arranging a heat exchange part 3D communicating gas is provided in a sealed vessel 3 circulating hot water, a plurality of water heaters 10 controlling the quantity of supplied heat to the hot water by changing the number of operating water heaters in response to the communication quantity of gas is arranged in a circulation passage of the hot water, and the quantity of supplied heat to the hot water is made to follow the fluctuation of the gas communication quantity. A gas flow rate detecting means 30 is provided in a gas piping 1C in a governor 4 downstream side, a recirculation amount adjusting means 13 is provided in the circulation passage of the hot water for adjusting a flow rate of hot water returning to the water heaters 10, the recirculation amount adjusting means 13 is adjusted by an output of the gas flow rate detecting means 30, and the number of operated water heaters 10 is controlled in response to the flow rate of the hot water returning to the water heaters 10.
      COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:提供一种调速器加热器系统,其能够控制调节器中的气体连通量的波动后供给的热量,并且即使在热交换效率高的情况下也能够提供调速器加热器的经济运行。 解决方案:在调速器加热器3中,通过调速器4的减压冷却的加热气体,通过设置热交换部3D连通气体而构成的调速加热器3设置在循环热水的密封容器3中,多个热水器 10通过在热水的循环通道中设置响应于气体的连通量而改变操作热水器的数量来控制向热水供应的热量,并且向热水供应的热量 跟踪气体通讯量的波动。 在调节器4下游侧的气体配管1C中设置有气体流量检测单元30,在热水循环通路内设置有再循环量调节单元13,用于调节返回到热水器的热水流量 如图10所示,通过气体流量检测装置30的输出调节再循环量调节装置13,并且响应于返回到热水器10的热水的流量来控制操作的热水器10的数量。 P>版权所有(C)2005,JPO&NCIPI
    • 6. 发明专利
    • ゴムシール材の寿命評価方法
    • 橡胶密封材料寿命评估方法
    • JP2015045524A
    • 2015-03-12
    • JP2013175809
    • 2013-08-27
    • 東京瓦斯株式会社Tokyo Gas Co Ltd
    • NUMATA KAORI
    • G01N24/08
    • 【課題】パルス法NMRにより、ゴムシール材の寿命を高精度に評価することができるゴムシール材の寿命評価方法を提供する。【解決手段】パルス法NMRでゴムシール材のスピン−スピン緩和時間T2を測定し、得られたT2緩和曲線(自由誘導減衰曲線)を緩和時間の短いT2S成分と、緩和時間の長いT2L成分とに分割し、このT2Sに基づいてゴムシール材の寿命を評価することを特徴とするゴムシール材の寿命評価方法。【選択図】図2
    • 要解决的问题:提供一种橡胶密封材料的寿命评估方法,其能够通过脉冲方法NMR高度精确地评估橡胶密封材料的寿命。解决方案:在橡胶密封材料的寿命评估方法中,自旋旋转 松弛时间通过脉冲方法NMR测量橡胶密封材料。 将获得的T松弛曲线(自由感应衰减曲线)分为具有短弛豫时间的T组分和具有较长松弛时间的T组分,并且基于T评估橡胶密封材料的寿命。
    • 7. 发明专利
    • Pressure governor device
    • 压力总监装置
    • JP2012038208A
    • 2012-02-23
    • JP2010179682
    • 2010-08-10
    • Tokyo Gas Co Ltd東京瓦斯株式会社
    • FUKUCHI FUMIHIKONUMATA KAORIWATABIKI DAISAKU
    • G05D16/20F16K17/30F17D1/04F17D5/02
    • PROBLEM TO BE SOLVED: To provide a pressure governor device for achieving stable behavior when starting the pressure governor device even though a start and an operation stop are easily performed.SOLUTION: A motor-operated valve 30 is provided in a pilot passage 5 such that the motor-operated valve 30 can be subjected to an opening/closing operation to vary communication opening between an auxiliary ball 14 and a downstream side pipe 2. When the motor-operated valve 30 is closed to block the pilot passage 5, a main governor 11 stops operation in a closed state, and when the motor-operated valve 30 is opened, the pilot passage 5 is made to communicate to operate the main governor 11. When a start operation signal for starting the main governor 11 is outputted by remote control, control means restricts the speed of the motor-operated valve 30 to cause low-speed operation, thereby gradually increasing the communication opening of the pilot passage 5 by taking predetermined time within the range of cushioning opening smaller than communication opening during operation. When the predetermined time passes, the motor-operated valve 30 is opened completely to make the communication opening of the pilot passage 5 the communication opening during operation.
    • 要解决的问题:即使启动和操作停止容易进行,提供一种用于在启动压力调节器装置时实现稳定行为的压力调节器装置。 解决方案:电动阀30设置在先导通路5中,使得电动阀30能够进行打开/关闭操作以改变辅助球14和下游侧管2之间的连通开口 当电动阀30关闭以阻挡先导通路5时,主调节器11在关闭状态下停止运转,当电动阀30打开时,使导向通路5进行通信, 主调速器11.当通过遥控器输出用于启动主调速器11的启动操作信号时,控制装置限制电动阀30的速度进行低速操作,从而逐渐增加导向通道的连通开口 在缓冲开口的范围内通过在操作期间小于通信开口的预定时间来进行。 当预定时间过去时,电动阀30完全打开,以在操作期间使导向通路5的连通开口成为连通开口。 版权所有(C)2012,JPO&INPIT
    • 8. 发明专利
    • Pressure governor device
    • 压力总监装置
    • JP2014053047A
    • 2014-03-20
    • JP2013252354
    • 2013-12-05
    • Tokyo Gas Co Ltd東京瓦斯株式会社
    • FUKUCHI FUMIHIKONUMATA KAORIWATABIKI DAISAKU
    • G05D16/16F16K17/28
    • PROBLEM TO BE SOLVED: To provide a pressure governor device for achieving stable behavior when starting the pressure governor device even though a start and an operation stop are easily performed.SOLUTION: A motor-operated valve 30 is provided in a pilot passage 5 such that the motor-operated valve 30 can be subjected to an opening/closing operation to vary communication opening between an auxiliary ball 14 and a downstream side pipe 2. When the motor-operated valve 30 is closed to block the pilot passage 5, a main governor 11 stops operation in a closed state, and when the motor-operated valve 30 is opened, the pilot passage 5 is made to communicate to operate the main governor 11. When a start operation signal for starting the main governor 11 is outputted by remote control, control means restricts the speed of the motor-operated valve 30 to cause low-speed operation, thereby gradually increasing the communication opening of the pilot passage 5 by taking predetermined time within the range of cushioning opening smaller than communication opening during operation. When the predetermined time passes, the motor-operated valve 30 is opened completely to make the communication opening of the pilot passage 5 the communication opening during operation.
    • 要解决的问题:提供一种用于在启动压力调节器装置时实现稳定的行为的压力调节器装置,即使容易执行启动和操作停止。解决方案:电动阀30设置在先导通道5中,使得 可以对电动阀30进行打开/关闭操作以改变辅助球14和下游侧管2之间的连通开口。当电动阀30关闭以阻挡先导通道5时,主调节器 在关闭状态下11停止运转,并且当电动阀30打开时,使导向通路5进行通信以操作主调节器11.当通过遥控器输出启动主调节器11的启动操作信号时 控制装置限制电动阀30的速度进行低速运转,从而在先导通路5内的预定时间内逐渐增大通信开度 缓冲开口范围小于通气口开度。 当预定时间过去时,电动阀30完全打开,以在操作期间使导向通路5的连通开口成为连通开口。
    • 9. 发明专利
    • Flow measurement device and flow measurement method
    • 流量测量装置和流量测量方法
    • JP2012008007A
    • 2012-01-12
    • JP2010144206
    • 2010-06-24
    • Tokyo Gas Co Ltd東京瓦斯株式会社
    • NUMATA KAORISUZUKI YUJITORIUMI RYOICHI
    • G01F1/00
    • PROBLEM TO BE SOLVED: To provide a flow measurement device capable of easily specifying an accurate opening degree of a valve especially at an initial setup such as pipe installation.SOLUTION: A main valve is provided between an upstream pipe and a downstream pipe in an openable/closable state. An opening degree measurement device measures an actual displacement amount of the main valve on the basis of the open/close operation of the main valve. A secondary pressure gauge detects change in pressure of fluid in the downstream pipe when the main valve is opened in a state where the communication between the upstream pipe and the downstream pipe is blocked. The actual displacement amount of the main valve from the state where the communication between the upstream pipe and the downstream pipe is blocked until the secondary pressure gauge detects a predetermined pressure change is stored as a reference displacement amount. When flow is measured, the stored reference displacement amount is subtracted from the actual displacement amount measured by the opening degree measurement device to specify an opening degree of the main valve, and an estimated flow of the fluid in the downstream pipe is calculated on the basis of the opening degree of the main valve.
    • 要解决的问题:提供一种能够容易地指定阀的精确开度的流量测量装置,特别是在诸如管道安装的初始设置时。 解决方案:主阀设置在上游管和下游管之间,处于可打开/关闭状态。 开度测量装置基于主阀的打开/关闭操作来测量主阀的实际位移量。 二次压力表在上游管与下游管的连通被堵塞的状态下,在主阀打开时,检测下游管的流体的变化。 作为基准位移量,存储主阀从上游管与下游管之间的连通被阻塞直到二次压力表检测到预定压力变化的状态的实际位移量。 当测量流量时,从由开度测量装置测量的实际位移量中减去存储的参考位移量,以指定主阀的开度,并且基于该流量计算下游管中的流体的估计流量 的主阀开度。 版权所有(C)2012,JPO&INPIT