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    • 2. 发明专利
    • Endless belt
    • 无限皮带
    • JP2014191064A
    • 2014-10-06
    • JP2013064475
    • 2013-03-26
    • Tokai Rubber Ind Ltd東海ゴム工業株式会社
    • ENDO SATOSHIKANEHARA TERUYOSHIFUJITA TSUKASAKANDA SHIGEKINATSUME SHINICHI
    • G03G15/16B32B1/08B32B25/08
    • PROBLEM TO BE SOLVED: To provide an endless belt that is hardly stretched by rotational drive of a drive roller, and can suppress buckling of side ends of the belt when the side ends of the belt continues to contact a meandering regulating member of a roller over which the endless belt is laid.SOLUTION: An endless belt 1 is used in an image forming apparatus of an electrophotographic system, and includes a resin-made base layer 2 formed into a cylindrical shape and a rubber elastic layer 3 laminated on the periphery of the base layer 2. When a 3% elongation modulus of the base layer 2 is m[MPa], and a thickness of the base layer is t[mm], the endless belt 1 has an M value represented by m/t of 3500[MPa/mm] or less and a buckling load N in a belt axial direction of 6[N] or more.
    • 要解决的问题:提供一种通过驱动辊的旋转驱动难以拉伸的环形带,并且当带的侧端继续接触辊的曲折调节构件时,可以抑制带的侧端的弯曲 环形带被铺设。解决方案:在电子照相系统的图像形成装置中使用环形带1,并且包括形成为圆筒形的树脂制的基底层2和层叠在圆周方向上的橡胶弹性层3 基底层2.当基底层2的3%伸长率模量为m [MPa],基底层的厚度为t [mm]时,环形带1具有由m / t表示的M值为3500 [MPa / mm]以下,带轴方向的屈曲载荷N为6 [N]以上。
    • 3. 发明专利
    • Gripping state detection sensor
    • 传送状态检测传感器
    • JP2014190712A
    • 2014-10-06
    • JP2013063630
    • 2013-03-26
    • Tokai Rubber Ind Ltd東海ゴム工業株式会社
    • NAKAJIMA HIROYUKIMURAMATSU ATSUSHIHAYAKAWA TOMONORI
    • G01L5/22B62D1/06G01L1/14
    • PROBLEM TO BE SOLVED: To provide a gripping state detection sensor capable of detecting in details a gripping state of a driver of a part to be gripped.SOLUTION: A gripping state detection sensor 1 includes: a first base material 20 having insulation and made of elastomer; a plurality of first front surface side electrodes X1, X2 arranged on a front surface of the first base material 20 and having electroconductivity and made of elastomer; and a plurality of first rear surface side electrodes Y1 to Y8 arranged on a rear surface of the first base material 20 and having electroconductivity and made of elastomer. The gripping state detection sensor further includes: a proximity sensor part 2 for detecting an approach of a driver to a part 8 to be gripped and coordinates of the driver based on a change of an electrostatic capacitance Ca between the first front surface side electrodes X1, X2 and the first rear surface side electrodes Y1 to Y8; and a load sensor part 3 arranged on the rear surface of the proximity sensor part 2 and detecting a pressing of the driver to the part 8 to be gripped based on a load F applied from the driver via the proximity sensor part 2.
    • 要解决的问题:提供一种夹持状态检测传感器,其能够细节地检测要夹持的部件的驱动器的夹持状态。解决方案:夹持状态检测传感器1包括:第一基材20,其具有绝缘性并由 弹性体; 布置在第一基材20的前表面上并具有导电性并由弹性体制成的多个第一前表面侧电极X1,X2; 以及布置在第一基材20的后表面上并具有导电性并由弹性体制成的多个第一后表面侧电极Y1至Y8。 夹持状态检测传感器还包括:接近传感器部分2,用于基于第一前表面侧电极X1之间的静电电容Ca的变化来检测驾驶员接近待夹持的部分8和驾驶员的坐标, X2和第一后表面侧电极Y1至Y8; 以及布置在接近传感器部分2的后表面上的负载传感器部分3,并且基于从驾驶员经由接近传感器部分2施加的负载F检测驾驶员对被抓握部分8的按压。
    • 4. 发明专利
    • Fluid sealed vibration isolation device
    • 流体密封振动隔离装置
    • JP2014190401A
    • 2014-10-06
    • JP2013065525
    • 2013-03-27
    • Tokai Rubber Ind Ltd東海ゴム工業株式会社
    • YASUDA YASUNOBUMORI KENTARO
    • F16F13/06F16F13/18
    • PROBLEM TO BE SOLVED: To provide a fluid sealed vibration isolation device of a novel structure which can particularly effectively obtain vibration isolation performance by devices which are different in middle-frequency middle-magnitude vibration and high-frequency small-magnitude vibration, respectively, while sufficiently securing the vibration isolation performance against low-frequency large-magnitude vibration.SOLUTION: In a fluid sealed vibration isolation device 10, a rubber elastic membrane 56 having a thin-thickness portion 62 and a heavy-thickness portion 64 is assembled to a partitioning member 40, a movable rubber membrane is constituted at the thin-thickness portion 62, and stopper parts 80, 82 for limiting an elastic deformation amount of the movable rubber membrane are arranged at the partitioning member 40. On the other hand, magnitude-dependence type valve means in which a communication passage 86 is formed at the heavy-thickness portion 64, and an elastic protrusive piece 94 is integrally formed at the communication passage 86 and blocks the communication passage 86 by being elastically deformed is constituted, and furthermore, positioning means of the circumferential direction of the rubber elastic membrane 56 with respect to the partitioning member 40 is constituted.
    • 要解决的问题:提供一种新颖结构的流体密封隔振装置,其能够分别通过分别在中频中振幅和高频小振幅不同的装置有效地获得隔振性能,同时 充分确保隔振性能抵抗低频大振幅。解决方案:在流体密封隔振装置10中,将具有薄壁部分62和厚厚度部分64的橡胶弹性膜56组装成分隔 构件40在薄壁部62上形成活动橡胶膜,限制活动橡胶膜的弹性变形量的止挡部80,82配置在分隔构件40上。另一方面,大小依赖性 在重厚部分64处形成有连通通道86的弹簧式阀装置和弹性突出部 在连接通路86上整体地形成有片94,并且通过弹性变形来阻挡连通通道86,并且构成橡胶弹性膜56相对于分隔件40的圆周方向的定位装置。
    • 6. 发明专利
    • Manufacturing method of molding die, and molding die
    • 成型模具的制造方法和成型模具
    • JP2014188746A
    • 2014-10-06
    • JP2013064581
    • 2013-03-26
    • Tokai Rubber Ind Ltd東海ゴム工業株式会社
    • NAKAICHI SHINGOKATAYAMA NAOKI
    • B29C33/38
    • PROBLEM TO BE SOLVED: To provide a manufacturing method of a molding die, which achieves both of the formation of a minute rough surface and the releasability of a molded product; and a molding die.SOLUTION: The manufacturing method of a molding die 10 having many recesses on the mold transfer surface includes: a plating step of forming a eutectoid plating layer 14 on a base material 12 of the molding die by a eutectoid reaction of Ni or Ni alloy and resin particles 14a from a Ni-containing plating solution with dispersed resin particles 14a; a surface roughening step of forming irregularities on the surface of eutectoid plating layer 14 by a physical treatment; and a coating film forming step of forming a coating film 16 of resin along the irregular surface of the eutectoid plating layer 14 by melting the resin particles 14a on the surface of the eutectoid plating layer 14 having irregularities.
    • 要解决的问题:提供一种能够实现微小粗糙表面的形成和模制品的脱模性的成型模具的制造方法; 成型模具。成型模具10在模具转印面上具有多个凹部的制造方法包括:通过Ni的共析反应在成型模具的基材12上形成共析电镀层14的镀层工序 或具有分散树脂颗粒14a的含Ni电镀液的Ni合金和树脂颗粒14a; 通过物理处理在共析镀层14的表面上形成凹凸的表面粗糙化工序; 以及涂膜形成步骤,通过熔化具有不规则性的共析镀层14的表面上的树脂颗粒14a,沿着共析镀层14的不规则表面形成树脂涂膜16。
    • 7. 发明专利
    • Dust cover assembly
    • 防尘罩总成
    • JP2014185658A
    • 2014-10-02
    • JP2013059539
    • 2013-03-22
    • Tokai Rubber Ind Ltd東海ゴム工業株式会社
    • NAGAI HIROAKIYANAGINO HIDEOKOBAYASHI KOICHI
    • F16F9/38B60G13/06B60G17/06F16F9/54F16J3/04F16J15/52
    • F16F9/38B60G13/06F16F1/126F16J3/042F16J3/043
    • PROBLEM TO BE SOLVED: To provide a dust cover assembly of a new structure capable of realizing superior durability while effectively preventing intrusion of foreign matters by easily assembling a resin dust cover and a rubber upper insulator to each other with sufficient strength.SOLUTION: An engagement cylindrical portion 30 is integrally formed on an upper side of a bellows cylindrical portion 18 of a dust cover 14, engagement grooves 32, 34 opened to an outer peripheral face with respect to the engagement cylindrical portion 30, are formed in a state of being extended in the circumferential direction, locking projections 44, 46 projecting toward an inner peripheral side are formed on an inner peripheral face of an annular upper insulator 16 in a state of being extended in the circumferential direction, the engagement cylindrical portion 30 of the dust cover 14 is inserted to the upper insulator 16, and the locking projections 44, 46 are inserted and axially locked to the engagement grooves 32, 34.
    • 要解决的问题:提供一种具有能够实现优异耐久性的新型结构的防尘罩组件,同时通过以足够的强度将树脂防尘罩和橡胶上绝缘体彼此容易地组装,有效地防止异物侵入。解决方案: 圆筒部30一体形成在防尘罩14的波纹管筒部18的上侧,相对于接合圆筒部30向外周面开口的卡合槽32,34形成为延伸的状态 在圆周方向上,在周向延伸的状态下,在环状上绝缘体16的内周面上形成有向内周侧突出的锁定突起44,46,防尘罩14的卡合圆筒部30 被插入到上绝缘体16中,并且锁定突起44,46被插入并且轴向地锁定到接合 凹槽32,34。
    • 10. 发明专利
    • Partition member and fluid sealed type vibration control device including the same
    • 分离构件和流体密封型振动控制装置,包括它们
    • JP2014134280A
    • 2014-07-24
    • JP2013004153
    • 2013-01-14
    • Tokai Rubber Ind Ltd東海ゴム工業株式会社
    • NISHI NAOKI
    • F16F13/18F16F13/06
    • PROBLEM TO BE SOLVED: To provide a partition member for a fluid sealed type vibration control device which adopts a simple structure that uses a small number of components and suits for required characteristics with high flexibility, and to provide the fluid sealed type vibration control device using the partition member.SOLUTION: A partition member 36 is formed by overlapping a first partition member 38 with a second partition member 40. An engagement part 54 is formed at the first partition member 38 and an elastic engagement piece 70 is formed at the second partition member 40. The first partition member 38 and the second partition member 40 are relatively displaced in a sliding manner overlapping with each other. The action causes the elastic engagement piece 70 to engage with the engagement part 54. Further, the first partition member 38 and the second partition member 40 are pressed against each other in an overlapping direction utilizing an elastic reaction force generated by the elastic engagement piece 70 contacting with the engagement part 54, to be assembled to each other.
    • 要解决的问题:提供一种流体密封型振动控制装置的分隔构件,其采用使用少量部件和具有高柔性的要求特性的简单结构,并且提供使用流体密封型振动控制装置的流体密封型振动控制装置 分隔构件。解决方案:分隔构件36通过将第一分隔构件38与第二分隔构件40重叠而形成。接合部54形成在第一分隔构件38处,并且弹性接合件70形成在第二分隔件 第一分隔构件38和第二分隔构件40以彼此重叠的滑动方式相对移位。 该动作使得弹性接合片70与接合部54接合。此外,利用弹性接合片70产生的弹性反作用力,第一分隔构件38和第二分隔构件40在重叠方向上彼此挤压 与接合部54接触,以彼此组装。