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    • 41. 发明授权
    • Connector supporting structure and a squeezed amount calculating method
    • 连接器支撑结构和挤压量计算方法
    • US06966794B2
    • 2005-11-22
    • US10858097
    • 2004-06-01
    • Masahiko AoyamaHiroshi NakanoAtsushi NishidaMasato Minakata
    • Masahiko AoyamaHiroshi NakanoAtsushi NishidaMasato Minakata
    • H01R13/533H01R13/73
    • H01R13/73H01R13/533
    • Supporting pieces (42) on side surfaces of a waiting-side connector (20) are insertable into supporting grooves (15) of a casing (10). Contact projections (47F, 47R) are on one outer wall surface (46) of each supporting piece near the upper end and bottom ends. A squeezable projection (55) is on an outer wall surface (44) opposite from the outer wall surface (46) where the contact projections (47) are provided. The squeezable projection (55) has a substantially triangular cross section and contacts a wall surface (13A) of the supporting groove (15) as insertion of the supporting piece (42) into the supporting groove (15) progresses. A tip of the squeezable projection (55) is squeezed at a final stage of the insertion to engage the supporting piece (42) with the supporting groove (15). Accordingly, the waiting-side connector (20) is supported in the casing (10) without shaking.
    • 等待侧连接器(20)的侧面上的支撑件(42)可插入壳体(10)的支撑槽(15)中。 接触突起(47F,47R)位于靠近上端和底端的每个支撑件的一个外壁表面(46)上。 可挤压突起(55)位于与设置有接触突起(47)的外壁表面(46)相对的外壁表面(44)上。 可挤压突起(55)具有基本上三角形的横截面并随着支撑件(42)插入支撑槽(15)中而与支撑槽(15)的壁表面(13A)接触。 可挤压突起(55)的尖端在插入的最后阶段被挤压,以将支撑件(42)与支撑槽(15)接合。 因此,等待侧连接器(20)不摇动地支撑在壳体(10)中。
    • 42. 发明申请
    • Connector to be fixed to a device and method of fixing a connector to a device
    • 要固定到设备的连接器和将连接器固定到设备的方法
    • US20050221666A1
    • 2005-10-06
    • US11073228
    • 2005-03-04
    • Hiroshi NakanoKenji Okamura
    • Hiroshi NakanoKenji Okamura
    • H01R13/73
    • H01R12/707H01R12/57
    • Fixing members (30) fixable to a circuit board (K) by soldering are mounted in a housing (10). Each fixing member (30) is comprised of a main panel (31) and a solder leg (32) projecting sideways from the bottom end of the main portion (31). The solder leg (32) has solder entering holes (37) that open at a side of the solder leg (32) toward the circuit board K and at a side opposite therefrom. Each solder entering hole (37) has a cross-section that gradually increases toward both upper and lower open ends (37a, 37b). A locking portion (38) is formed on each solder entering hole (37) and bulges more inward than both open ends (37a, 37b). The locking portion (38) locks solder (H) that enters the solder entering hole (37).
    • 通过焊接固定到电路板(K)的固定构件(30)安装在壳体(10)中。 每个固定构件(30)包括主板(31)和从主体部分(31)的底端侧向突出的焊接脚(32)。 焊料支脚(32)具有焊料进入孔(37),该焊料进入孔(37)在焊料支脚(32)的一侧朝向电路板K和与其相反的一侧开口。 每个焊料进入孔(37)具有朝着上开口端和下开口端(37a,37b)逐渐增加的横截面。 在每个焊料进入孔(37)上形成锁定部分(38),并且比两个开口端(37a,37b)更向内凸出。 锁定部分(38)锁定进入焊料进入孔(37)的焊料(H)。
    • 46. 发明授权
    • Odor measuring apparatus
    • 气味测量仪
    • US06439026B2
    • 2002-08-27
    • US09887100
    • 2001-06-25
    • Hiroshi NakanoJunichi Kita
    • Hiroshi NakanoJunichi Kita
    • G01N33497
    • G01N33/0047G01N33/0014G01N33/0021G01N33/0031G01N2033/0019
    • In an odor measuring apparatus, a plurality of detection outputs with respect to a sample gas is obtained by a plurality of odor sensors having different response characteristics. In an odor fractionation processing section, based on the detection outputs, it is determined which one of a plurality of predetermined odor categories the odor of the sample gas belongs to. In case of calculating an odor index from the detection outputs, the same regression line can be utilized for the same odor category. An odor index calculating section utilizes regression coefficients determined in advance for each odor category, to thereby calculate the odor index. Accordingly, without using an organoleptic test by panels, the odor index can be obtained easily and accurately.
    • 在气味测定装置中,通过具有不同响应特性的多个气味传感器获得关于取样气体的多个检测输出。 在气味分馏处理部中,基于检测输出,确定样气的气味属于多个预定气味类别中的哪一个。 在从检测输出计算气味指数的情况下,相同的回归线可用于相同的气味类别。 气味指数计算部利用针对每个气味类别预先确定的回归系数,从而计算气味指数。 因此,在不使用面板的感官试验的情况下,可以容易且准确地获得气味指数。
    • 47. 发明授权
    • Devices and methods for measuring odor
    • 用于测量气味的装置和方法
    • US06374662B1
    • 2002-04-23
    • US09479012
    • 2000-01-07
    • Ryutaro OdaMotoo KinoshitaKunihiko OkuboKeiso KawamotoHiroshi Nakano
    • Ryutaro OdaMotoo KinoshitaKunihiko OkuboKeiso KawamotoHiroshi Nakano
    • G01N33497
    • G01N35/1097G01N33/0014G01N33/0047
    • An odor measuring device has a collector tube containing an adsorbent which adsorbs sample components with odor at normal temperatures and desorbs them when heated. Flow routes for a sample gas containing sample components to be detected and an inactive gas are connected through valves to this collector tube. Initially, a sample gas containing sample components with odor is introduced into the collector tube at normal temperature such that the sample components to be detected are adsorbed to the adsorbent. Thereafter, the valves are switched such that the inactive gas is introduced into the collector tube while its temperature is increased by a heater, causing the sample components to be desorbed into the inactive gas and to be transported into an odor sensor. If odor sensors requiring oxygen for detection are used, an oxygen-containing gas such as air is mixed into the inactive gas after the latter has passed through the collector tube such that deterioration of the adsorbent by oxidation can be prevented.
    • 气味测定装置具有含有吸附剂的收集管,该吸附剂在正常温度下吸附有气味的样品成分,并在加热时解吸。 含有待检测样品组分的样品气体和非活性气体的流动路径通过阀连接到该收集管。 首先,将含有气味的样品成分的样品气体在常温下引入收集管,使待检测的样品成分吸附在吸附剂上。 此后,切换阀,使得惰性气体被引入收集管中,同时通过加热器增加其温度,使得样品组分被解吸到惰性气体中并被运送到气味传感器中。 如果使用需要用于检测的氧气的气味传感器,则在惰性气体通过集电管之后,诸如空气的含氧气体被混合到惰性气体中,从而可以防止吸附剂的氧化劣化。
    • 48. 发明授权
    • Sheet feeding device having a plurality of rollers positioned side by
side
    • 具有并排定位的多个辊的送纸装置
    • US5540423A
    • 1996-07-30
    • US408042
    • 1995-03-21
    • Hiroshi Nakano
    • Hiroshi Nakano
    • B65H3/52B65H5/06B65H5/00
    • B65H3/5223B65H5/062B65H2301/331
    • A sheet feeding device avoiding diagonal feeding of a sheet for use in an image forming apparatus. The image forming apparatus includes a sheet cassette and a sheet supply roller unit positioned deviatedly with respect to a widthwise center of the cassette. The deviated position of the sheet supply roller provides rotational force to the sheet for causing diagonal feeding thereof. The sheet feeding device includes a plurality of feed rollers arrayed side by side in the widthwise direction of the sheet. One feed roller positioned close to the sheet supply roller unit provides the sheet feeding force greater than that of the remaining sheet feed roller positioned far away from the sheet supply roller for providing a linear relationship between a resultant sheet feeding force and a resultant resistive force in a direction parallel with the sheet feeding direction. The difference in sheet feeding force is provided by changing nipping pressure of the feed rollers, friction coefficient thereof, or peripheral speed thereof.
    • 一种片材馈送装置,避免了用于图像形成装置的片材的对角线馈送。 图像形成装置包括相对于盒的宽度方向中心偏离的片材盒和片材供应辊单元。 片材供应辊的偏离位置为片材提供旋转力,以使其对角线进给。 片材进给装置包括在片材的宽度方向上并排排列的多个进给辊。 位于纸张供应辊单元附近的一个进料辊提供的纸张进给力大于远离纸张供应辊的剩余纸张进给辊的纸张进给力,以便在所得到的纸张供给力和合成的阻力之间形成线性关系 与片材进给方向平行的方向。 送纸力的差异是通过改变进给辊的夹紧压力,其摩擦系数或其圆周速度来提供的。
    • 49. 发明授权
    • Liquid supply device
    • 液体供应装置
    • US5409138A
    • 1995-04-25
    • US93583
    • 1993-07-19
    • Hiroshi Nakano
    • Hiroshi Nakano
    • B41J2/175B67D7/76F15D1/00
    • B41J2/17563Y10S222/01
    • An ink filter having a fine mesh structure secured to an ink supply passageway is erected at a side portion of an ink reservoir. An upper portion of the ink reservoir communicates with the atmosphere through an air filter, a lower side portion communicates with the ink supply passageway. An ink filter interrupts the ink supply passageway at an upper portion and has a predetermined height to ensure maintenance of a column of ink in the ink supply passageway. As a result of the capillary phenomenon of the ink filter on the ink, the ink fills the entire portion of the ink supply passageway located below the ink filter so that the liquid surface of the ink is above the communication portion between the ink supply passageway and the ink reservoir but below the position of the ink filter.
    • 在墨水容器的侧部竖立具有固定到供墨通道的细网状结构的墨水过滤器。 墨水储存器的上部通过空气过滤器与大气连通,下侧部分与供墨通道连通。 墨水过滤器在上部中断供墨通道并具有预定的高度,以确保维护墨水供应通道中的墨水柱。 由于油墨过滤器在墨水上的毛细管现象,墨水填充位于墨水过滤器下方的墨水供应通道的整个部分,使得墨水的液体表面在墨水供应通道和 墨水储存器,但低于墨水过滤器的位置。
    • 50. 发明授权
    • Back fire helical antenna
    • 背火螺旋天线
    • US5346300A
    • 1994-09-13
    • US907137
    • 1992-07-01
    • Hirohiko YamamotoKeijirou HigashiHiroyuki TakebeHiroshi NakanoTomozo Ohta
    • Hirohiko YamamotoKeijirou HigashiHiroyuki TakebeHiroshi NakanoTomozo Ohta
    • H01Q11/08H01Q1/36
    • H01Q11/08
    • A first radiation member 165 includes radiation conductors 166 and 167, an arm 168 and a lower connection piece 169 all integrally formed by blanking. A stub 170 is likewise integrally formed on radiation conductor 166. A second radiation member 171 includes radiation conductors 172 and 173, an arm 174 and a lower connection piece 175 all integrally formed by blanking. A stub 176 is likewise integrally formed on radiation conductor 173. A first loop comprised of radiation conductors 167 and 172, arms 168 and 174 and lower connection pieces 169 and 175 exhibits capacitive impedance at a wavelength for use. The overall length of a second loop comprised of radiation conductors 166 and 173, arms 168 and 174 and lower connection pieces 169 and 175 is set equal to that of the first loop. The second loop, however, exhibits inductive impedance at the wavelength for use by adjustment of the length of stubs 170 and 176. Adjusting stubs 170 and 176 enable control of a phase of a current flowing through the second loop.
    • 第一辐射构件165包括通过消隐一体形成的辐射导体166和167,臂168和下连接件169。 短截线170同样整体地形成在辐射导体166上。第二辐射构件171包括辐射导体172和173,臂174和下连接件175,所述臂174和下连接片175通过消隐整体形成。 短截线176同样整体地形成在辐射导体173上。由辐射导体167和172,臂168和174以及下连接片169和175组成的第一回路在使用的波长处表现出电容性阻抗。 包括辐射导体166和173,臂168和174以及下连接件169和175的第二回路的总长度被设定为等于第一回路的总长度。 然而,第二回路在波长处显示出通过调整短截线170和176的长度来使用的电感阻抗。调节短线170和176使得能够控制流经第二回路的电流的相位。