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. 发明授权
    • Heat insulating box structure and manufacturing method therefor
    • 隔热箱结构及其制造方法
    • US5061019A
    • 1991-10-29
    • US509965
    • 1990-04-16
    • Toshiaki KubotaHiroshige HayashiYoshirou IshizakaHiroshi NaganumaZenichi Kakinuma
    • Toshiaki KubotaHiroshige HayashiYoshirou IshizakaHiroshi NaganumaZenichi Kakinuma
    • F25D23/08A47F3/04F25D23/06
    • A47F3/04F25D23/064
    • A heat insulating structure having a lower case whose top surface is arranged to be an opening through which goods are inserted and withdrawn and an upper case whose front surface is arranged to be an opening through which goods are inserted and withdrawn, the upper and lower cases each being formed by inner and outer boxes leaving a gap therebetween the heat insulating structure comprising: two pour holes formed in a wall of the upper case; a passage for establishing communication between the gaps of the upper case and the lower case; a heat insulating pipe having an end portion communicating with one of the pour holes of the upper case and extending from the one pour hole and through the gap of the upper case and having its other end portion communicating with the gap of the lower case; foam heat insulating material is injected, in the form of a foaming agent, through the other pour hole of the upper case to the gap of the upper case so as to foam and solidify; and foam heat insulating material in the form of a foaming agent is also injected through the pour hole of the upper case and through the pipe to the gap of the lower case to foam and solidify.
    • 一种隔热结构,其具有下表壳,其顶面设置为开放货物被插入和取出的开口,以及前表面布置成是插入和撤出货物的开口的上壳体,上壳体和下壳体 每个由内外箱形成,其间隔开隔热结构,包括:形成在上壳体的壁中的两个倾倒孔; 用于建立上壳体和下壳体的间隙之间的连通的通道; 绝热管,其端部与上壳体的一个倾倒孔连通,并且从一个倾倒孔延伸并穿过上壳体的间隙,并且其另一端部与下壳体的间隙连通; 泡沫隔热材料以发泡剂的形式通过上壳体的另一倾倒孔注射到上壳体的间隙以便发泡和固化; 并且发泡剂形式的泡沫隔热材料也通过上壳体的倾倒孔并通过管道注入到下壳体的间隙以发泡和固化。
    • 3. 发明授权
    • Refrigeration showcase
    • 制冷展示柜
    • US4872320A
    • 1989-10-10
    • US281268
    • 1988-12-07
    • Yoshirou IshizakaHiroshi NaganumaKenji SatoYuji KishiYoshihisa IshidaKiyokazu Goto
    • Yoshirou IshizakaHiroshi NaganumaKenji SatoYuji KishiYoshihisa IshidaKiyokazu Goto
    • A47F3/04
    • A47F3/0408
    • A refrigeration showcase comprising a display case, a machine case and an air duct connecting the display case to the machine case, the display case comprising a display table for displaying commodities as placed thereon, a cover member openably covering the display table from above to define a commodity chamber above the display table and permitting the commodity chamber to be seen therethrough from outside, and an air passage member disposed under the display table and providing a cold air supply portion for supplying cold air therethrough to the commodity chamber and a cold air discharge portion independent of the supply portion for discharging cold air from the commodity chamber therethrough, the machine case comprising a case body, a refrigerator housed in the case body and providing a refrigeration cycle and a cold air circulating blower for supplying air cooled by the evaporator in circulation, the air duct having a forward air channel for transporting the cold air, and a return air channel independent of the forward air channel.
    • 一种制冷陈列柜,包括显示壳体,机壳和将显示器壳体连接到机器壳体的空气管道,显示器壳体包括用于显示放置在其上的商品的显示台,可从上方可打开地覆盖显示台的盖构件,以限定 在展示台之上的商品室,并允许从外部看到商品室;以及空气通道构件,其设置在显示台下方,并提供用于将冷空气供应到商品室的冷气供应部分,以及冷空气排出口 该部分独立于用于从商品室排出冷空气的供应部分,该机壳包括壳体,容纳在壳体中并提供制冷循环的冰箱和用于将由蒸发器冷却的空气供应的冷空气循环鼓风机 具有用于运送冷空气的前进空气通道的空气管道和回流口 空气通道独立于前进空气通道。
    • 5. 发明授权
    • Boost compensator
    • 升压补偿器
    • US4864993A
    • 1989-09-12
    • US289704
    • 1988-12-27
    • Satoru ItohHiroshi Naganuma
    • Satoru ItohHiroshi Naganuma
    • F02D1/02F02D1/06F02D23/00F02D23/02F02M59/44
    • F02D23/02F02D1/065F02M59/447Y02T10/144
    • A boost compensator has a valve operative in response to a boost pressure. When the boost pressure is equal to or lower than a setting pressure, the valve intercepts communication between first and second chambers of the boost compensator which are partitioned by a diaphragm. When the boost pressure exceeds the setting pressure, the valve brings the first and second chambers into communication with each other. By the communication, pressure within the second chamber is raised so that the diaphragm and a push rod operatively connected to the diaphragm are moved toward the first chamber. As a result, a control member of a fuel injection pump is caused to be moved in a fuel decreasing direction.
    • 升压补偿器具有响应于增压压力而操作的阀。 当增压压力等于或小于设定压力时,阀拦截由隔膜分隔的升压补偿器的第一和第二腔室之间的连通。 当增压压力超过设定压力时,阀门使第一和第二腔室相互连通。 通过通信,第二室内的压力升高,使得隔膜和可操作地连接到隔膜的推杆朝向第一室移动。 结果,使得燃料喷射泵的控制构件在燃料减少方向上移动。
    • 6. 发明授权
    • Low-hydrogen, low-nitrogen, low-oxygen welding flux
    • 低氢,低氮,低氧焊接焊剂
    • US4566916A
    • 1986-01-28
    • US679011
    • 1984-12-06
    • Kyoichi NaganoHiroshi NaganumaKoichi ShinadaMotonori TamuraShigenobu Soneda
    • Kyoichi NaganoHiroshi NaganumaKoichi ShinadaMotonori TamuraShigenobu Soneda
    • B23K35/362B23K35/36B23K35/34
    • B23K35/361B23K35/3603
    • A welding flux which forms a weld metal simultaneously satisfying low-oxygen, low-nitrogen, and low-hydrogen contents, gives weld beads in good form, and joins given metal pieces without entailing weld defects is obtained by formulating the flux in a composition such that a four-component system used therein is formed of CaO, MgO, Al.sub.2 O.sub.3, and SiO.sub.2 in the following proportions based on the total amount of the system taken as unity (100%),CaO: 10 to 60%MgO: Not more than 30%Al.sub.2 O.sub.3 : 20 to 70%SiO.sub.2 : 5 to 40%that the total amount of the four components accounts for not less than 35% of the total weight of the flux less the CO.sub.2 component thereof, that the composition incorporates therein CaF.sub.2 in an amount of from 25 to 65% of the total weight of the flux less the CO.sub.2 component thereof, and that the composition fulfills a specific set of other requirements, concerning a fused substance and a non-fused substance, as selected to suit the particular application in which the flux is to be used.
    • 形成同时满足低氧,低氮和低氢含量的焊接金属的焊剂,形成良好形状的焊缝,并且连接给定的金属片而不引起焊接缺陷,是通过将焊剂配制成组合物 其中使用的四组分体系由CaO,MgO,Al 2 O 3和SiO 2以下列比例形成,以系统总量(100%)为基准,CaO:10至60%MgO:不大于 30%Al 2 O 3:20〜70%SiO 2:5〜40%,四种成分的总量不少于助熔剂总重量的35%,其中CO 2成分减少,组合物中含有CaF 2 量为焊剂总重量的25至65%,减少其二氧化碳成分,并且该组合物满足关于熔融物质和非熔融物质的特定一组其他要求,以适应特定应用 其中将使用通量。
    • 7. 发明授权
    • Rotation angle sensor
    • 旋转角传感器
    • US08749229B2
    • 2014-06-10
    • US13301076
    • 2011-11-21
    • Hiroshi NaganumaHiraku HirabayashiShunji Saruki
    • Hiroshi NaganumaHiraku HirabayashiShunji Saruki
    • G01B7/30
    • G01R33/091G01D5/145G01R33/0011
    • A rotation angle sensor includes a magnet that rotates about a rotation axis. The magnet has an end face perpendicular to the rotation axis and has a magnetization in a direction perpendicular to the rotation axis. The rotation angle sensor further includes a magnetic sensor that faces the end face of the magnet and detects a magnetic field produced by the magnet. The magnet includes a plate-shaped portion including the end face, and a ring-shaped portion that is located on a side of the plate-shaped portion farther from the end face and coupled to the plate-shaped portion. The plate-shaped portion does not include any hollow through which the rotation axis passes, whereas the ring-shaped portion includes a hollow through which the rotation axis passes.
    • 旋转角度传感器包括绕旋转轴线旋转的磁体。 磁体具有垂直于旋转轴线的端面,并且在垂直于旋转轴线的方向上具有磁化强度。 旋转角度传感器还包括面向磁体的端面的磁传感器,并且检测由磁体产生的磁场。 该磁体包括一个包括该端面的板状部分和一个环形部分,该环形部分位于距离该端面更远离该板状部分的一侧,并联接到该板状部分。 板状部分不包括旋转轴通过的任何中空部分,而环形部分包括旋转轴线通过的中空部分。
    • 9. 发明授权
    • Magnetic sensor
    • 磁传感器
    • US08593139B2
    • 2013-11-26
    • US12947328
    • 2010-11-16
    • Naoki OhtaHiraku HirabayashiMasanori SakaiHiroshi Naganuma
    • Naoki OhtaHiraku HirabayashiMasanori SakaiHiroshi Naganuma
    • G01R33/02
    • G01R33/093B82Y25/00G01R33/0029
    • A magnetic sensor includes a spin valve-type magneto-resistive element, a voltage detection part, a coil, and a current control part, the coil being configured to apply a measuring magnetic field to the spin valve-type magneto-resistive element upon application of a current, the voltage detection part being configured to output a detection signal to the current control part upon detecting an output voltage of the spin valve-type magneto-resistive element reaching a predetermined voltage value, the current control part being configured to control the current to unidirectionally increase or unidirectionally decrease a strength of the measuring magnetic field from an initial value, but upon input of the detection signal, control the current to return the strength of the measuring magnetic field to the initial value, the initial value being a magnetic field strength where the spin valve-type magneto-resistive element reaches saturation magnetization.
    • 磁传感器包括自旋阀型磁阻元件,电压检测部件,线圈和电流控制部件,该线圈被配置为在应用时向自旋阀型磁阻元件施加测量磁场 电流检测部分被配置为在检测到自旋阀型磁阻元件的输出电压达到预定电压值时将检测信号输出到电流控制部分,该电流控制部分被配置为控制电流控制部分 电流从初始值​​单向增加或单向地降低测量磁场的强度,但是当输入检测信号时,控制电流将测量磁场的强度返回到初始值,初始值为磁 自旋阀型磁阻元件达到饱和磁化强度的场强。