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    • 1. 发明授权
    • Retreaded tire
    • 翻新轮胎
    • US09573423B2
    • 2017-02-21
    • US13577138
    • 2011-02-04
    • Shigeo Kimura
    • Shigeo Kimura
    • B32B25/04B32B25/10B32B7/02B60C1/00B60C11/02C08K5/3415C08K5/40B60C11/00B29D30/54
    • B60C11/02B29D2030/544B60C1/0016B60C11/005B60C2011/0025C08K5/3415C08K5/40Y02T10/862Y10T428/24942Y10T428/31826Y10T428/3183Y10T428/31924C08L7/00C08L9/00
    • Provided is a retreaded tire that uses cushion rubber for retread that is able to further improve the prevention of separation failure while effectively suppressing blowout within the cushion rubber layer. The retreaded tire includes cushion rubber for retread, a base tire, and precured tread rubber formed of at least one rubber layer, and is characterized by: the aforementioned cushion rubber for retreaded tires being formed from a rubber composition containing specific quantities of a highly reinforcing carbon black of at least HAF grade, and natural rubber and/or synthetic polyisoprene rubber; the 100% modulus (AM) of the rubber layer (A) that comprises the aforementioned cushion rubber for retread being at least 3.0 MPa and less than 6.0 MPa; and the outermost layer (B) of the aforementioned base tire and the innermost layer (C) of the aforementioned precured tread rubber being formed from a rubber composition containing specific quantities of natural rubber and/or synthetic polyisoprene rubber.
    • 提供了一种使用缓冲橡胶进行翻新的翻新轮胎,其能够进一步提高防止分离失败的同时有效地抑制缓冲橡胶层内的喷射。 翻新轮胎包括用于翻新的缓冲橡胶,基础轮胎和由至少一个橡胶层形成的预硫化胎面橡胶,其特征在于:上述用于翻新轮胎的缓冲橡胶由含有特定量的高度增强的橡胶组合物形成 至少HAF等级的炭黑,以及天然橡胶和/或合成聚异戊二烯橡胶; 包含上述用于翻新的缓冲橡胶的橡胶层(A)的100%模量(AM)为至少3.0MPa且小于6.0MPa; 上述基础轮胎的最外层(B)和上述预固化胎面橡胶的最内层(C)由含有特定量的天然橡胶和/或合成聚异戊二烯橡胶的橡胶组合物形成。
    • 7. 发明授权
    • Pneumatic tire with tread formed with a rubber compound containing a rubber component, a softener and a benzothiazole compound type vulcanization accelerator
    • 具有胎面的气动轮胎与由橡胶组分,软化剂和苯并噻唑化合物型硫化促进剂组成的橡胶混合物形成
    • US06186204B1
    • 2001-02-13
    • US09107431
    • 1998-06-30
    • Naohiro SasakaKazuo YagawaShigeo Kimura
    • Naohiro SasakaKazuo YagawaShigeo Kimura
    • B06C1100
    • C08K5/47B60C1/0016C08K5/5398Y10T152/10495C08L9/06
    • A pneumatic tire comprising a tread portion formed by using a rubber composition which comprises: a rubber component comprising 50 parts by weight or more of SBR in 100 parts by weight of the rubber component; optionally, 5 to 40 parts by weight of aluminum hydroxide per 100 parts of the rubber component; per 100 parts by weight of the rubber component, 20 parts by weight or more of a softener which comprises 5 to 55 parts by weight of a specific resin softener having a softening point of 35 to 150° C.; and per 100 parts by weight of the rubber component, 0.2 to 10.0 parts by weight of a specific vulcanization accelerator of a dithiophosphoric acid compound or a specific vulcanization accelerator of a benzothiazole compound. The pneumatic tire exhibits excellent stability and controllability on wet roads or a combination of excellent stability and controllability on wet roads and excellent comfort of ride even when a vehicle is vibrating throughout the life of the pneumatic tire.
    • 一种充气轮胎,包括通过使用橡胶组合物形成的胎面部分,所述胎面部分包括:在100重量份的所述橡胶组分中包含50重量份或更多的SBR的橡胶组分; 任选地,每100份橡胶组分为5至40重量份的氢氧化铝; 每100重量份的橡胶组分,20重量份或更多的软化剂,其包含5至55重量份的软化点为35至150℃的特定树脂软化剂; 和100重量份的橡胶组分,0.2至10.0重量份的二硫代磷酸化合物的特定硫化促进剂或苯并噻唑化合物的特定硫化促进剂。 充气轮胎在潮湿道路上表现出优异的稳定性和可控性,或者即使当车辆在充气轮胎的整个使用寿命期间振动时,在湿路面上也具有优异的稳定性和可控性的组合,并且具有优异的乘坐舒适性。
    • 8. 发明授权
    • Thermal protector mounting structure for hermetic refrigeration
compressors
    • 密闭式制冷压缩机热保护器安装结构
    • US5509786A
    • 1996-04-23
    • US81176
    • 1993-06-25
    • Yasukazu MizutaniShigeo KimuraHideki Koseki
    • Yasukazu MizutaniShigeo KimuraHideki Koseki
    • F04C28/28H01H37/54H01H61/00H01R13/52H02K5/22H02K11/00F04B49/10H02H5/04
    • F04C28/28H01H37/5436H02K11/25H01H37/54H01H61/002H01R13/521H02K5/225
    • A structure for mounting a thermal protector in a hermetic refrigeration compressor including an electric motor and a compressing means enclosed in a housing with refrigerant is disclosed. The housing has at least one through hole. The structure includes a terminal assembly airtightly secured in the hole of the housing. The terminal assembly includes a metal base and a plurality of electrically conductive terminal pins secured to the metal base by an electrically insulative material with small thermal conductivity. The structure further includes a thermal protector including a hermetic casing, a thermally responsive element disposed in the casing to be in direct contact with an inner wall of the casing at one side, and a contact mechanism. The thermal protector is mounted on a plurality of connection terminals connected to respective ends of the terminal pins located inside the compressor housing so as to be subjected to heat from at least one of the motor, compressing means and the refrigerant, so that the thermal protector is positioned to occupy a predetermined position.
    • 公开了一种用于将热保护器安装在包括电动机和封闭在具有制冷剂的壳体中的压缩装置的封闭式制冷压缩机中的结构。 外壳至少有一个通孔。 该结构包括气密地固定在壳体的孔中的端子组件。 端子组件包括金属基座和通过导热性小的电绝缘材料固定到金属基底的多个导电端子销。 该结构还包括热保护器,其包括密封壳体,设置在壳体中以与一侧的壳体的内壁直接接触的热响应元件和接触机构。 热保护器安装在连接到位于压缩机壳体内部的端子销的相应端部的多个连接端子上,以便受到来自电动机,压缩装置和制冷剂中的至少一个的热量的作用,使得热保护器 被定位成占据预定位置。
    • 9. 发明授权
    • Capacitive pressure sensor
    • 电容式压力传感器
    • US5349492A
    • 1994-09-20
    • US994713
    • 1992-12-22
    • Shigeo KimuraYoshiyuki IshikuraTakashi MasudaTakaaki KuroiwaTakashi Kihara
    • Shigeo KimuraYoshiyuki IshikuraTakashi MasudaTakaaki KuroiwaTakashi Kihara
    • G01L9/12G01L9/00H01G7/00
    • G01L9/0075
    • A capacitive pressure sensor includes first and second substrates, a groove, and first and second electrodes. The first substrate consists of an electrical insulating material. The second substrate consists of the same material as that for the first substrate and has a peripheral portion directly bonded to the first substrate. The groove is formed in a central portion of the surface of one of the first and second substrates. The first and second substrates oppose each other through the groove. The first electrode is coupled to a surface, of the first substrate, which opposes the second substrate so as to be movable together with the first substrate. The second electrode is arranged on a surface, of the second substrate, which opposes the first substrate so as to be parallel to the first electrode. The first and second substrate may consist of quartz glass or sapphire. The first and second substrates are bonded to each other at a temperature lower than the melting point of the substrate material without forming any bonding layer.
    • 电容式压力传感器包括第一和第二基板,凹槽以及第一和第二电极。 第一衬底由电绝缘材料组成。 第二基板由与第一基板相同的材料组成,并且具有直接接合到第一基板的周边部分。 凹槽形成在第一和第二基板之一的表面的中心部分中。 第一和第二基板通过凹槽彼此相对。 第一电极耦合到第一衬底的与第二衬底相对的表面,以便与第一衬底一起移动。 第二电极布置在第二基板的与第一基板相对的表面上,以平行于第一电极。 第一和第二衬底可以由石英玻璃或蓝宝石组成。 第一基板和第二基板在低于基板材料的熔点的温度下彼此结合,而不形成任何结合层。