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    • 2. 发明申请
    • PROPELLING FORCE APPLICATION APPARATUS
    • 螺旋力应用装置
    • WO1997023737A1
    • 1997-07-03
    • PCT/JP1995002625
    • 1995-12-21
    • HONDA GIKEN KOGYO KABUSHIKI KAISHANHK SPRING CO., LTD.
    • HONDA GIKEN KOGYO KABUSHIKI KAISHANHK SPRING CO., LTD.SHIGIHARA, AkiraISHIZAKA, TakashiIIZUKA, TohruNARUSHIMA, MasaziNUMAKURA, FumioKOBAYASHI, Takao
    • F16H07/08
    • F16H25/186F16H7/0848F16H2007/081F16H2007/0857
    • A propelling force application apparatus wherein a cylindrical push member the front edge of which is brought into contact with a propelled member and which is equipped at least around the inner periphery on the rear side thereof with a female screw is supported by a stationary casing in such a manner that revolution round the axis thereof is inhibited but movement in the axial direction is permitted, a bearing member for enabling a rotary shaft to rotate round the axis and thrusts and supports the rotary shaft is interposed between the proximal end of the rotary shaft having a male screw meshing with the female screw on the distal end side and the casing, and a spring for urging the rotary shaft in the advancing direction of the push member is interposed between the casing and the rotary shaft. An effective friction diameter d1 between the rotary shaft (7) and the bearing member (8) is greater than an effective diameter d2 of the meshing portion between the male screw portion (7a) and the female screw portion (18) so that a drastic retreat of the push member due to the drop of the frictional coefficient due to an extended use can be reduced to minimum.
    • 一种推进力施加装置,其前缘与推进构件接触的圆柱形推动构件至少在其背侧的内周配备有内螺纹,由这样的固定壳体支撑 绕其轴线旋转的方式被抑制但允许在轴向上的运动,用于使旋转轴能够绕轴线旋转并推力并支撑旋转轴的支承构件被插入在具有 与前端侧的内螺纹啮合的外螺纹和壳体,以及用于在推动构件的前进方向上推压旋转轴的弹簧插入在壳体和旋转轴之间。 旋转轴(7)与轴承部件(8)之间的有效的摩擦直径d1大于外螺纹部(7a)与内螺纹部(18)之间的啮合部的有效直径d2, 由于延长使用时的摩擦系数的下降,推动构件的后退可以减小到最小。
    • 4. 发明申请
    • VEHICLE SEAT
    • 车辆座椅
    • WO2006019189A1
    • 2006-02-23
    • PCT/JP2005/015386
    • 2005-08-18
    • NHK SPRING CO., LTD.YAMAGUCHI, Hiroyoshi
    • YAMAGUCHI, Hiroyoshi
    • B60N2/42A47C7/38B60N2/48B60R21/04
    • B60N2/4228B60N2/829B60N2/853B60N2/888
    • A vehicle seat comprises a head rest tilt mechanism (67) which supports a head rest (13), a pressure receiving member (70) contained in a seat back, and a speed increasing unit (79). The pressure receiving member (70) moves rearward when it is pushed by the body of an occupant. The speed increasing unit (79) has a base bracket (80), first and second arms (81, 82), a roller (95), a pulley (97), etc. A part of a wire (44) is wound in the shape of a U around the pulley (97). When the pressure receiving member (70) moves rearward, the pulley (97) moves to pull the wire (44). When the wire (44) is pulled, the head rest tilt mechanism (67) is driven to move a head rest body (14) forward.
    • 车辆座椅包括支撑头枕(13)的头枕倾斜机构(67),容纳在座椅靠背中的受压构件(70)和增速单元(79)。 受压部件70被乘员的身体按压时向后方移动。 增速单元(79)具有基座支架(80),第一和第二臂(81,82),滚子(95),滑轮(97)等。线(44)的一部分被卷绕 围绕滑轮(97)的U形状。 当压力接收构件(70)向后移动时,滑轮(97)移动以牵引线(44)。 当拉动导线(44)时,头枕倾斜机构(67)被驱动以使头枕主体(14)向前移动。
    • 5. 发明申请
    • OIL COOLER AND METHOD OF MANUFACTURING SAME
    • 油冷却器及其制造方法
    • WO1989006744A1
    • 1989-07-27
    • PCT/JP1989000055
    • 1989-01-20
    • NICHIRIN RUBBER INDUSTRIAL CO., LTD.NHK SPRING CO., LTD.NISSAN MOTOR, CO., LTD.MATSUDA, MasayukiNISHIMURA, ToyoharuTAKAGI, YasujiTANAKA, MamoruNORIMATSU, Naoki
    • NICHIRIN RUBBER INDUSTRIAL CO., LTD.NHK SPRING CO., LTD.NISSAN MOTOR, CO., LTD.
    • F01P11/08
    • F28F1/32B23K1/18F28D7/1669F28D2021/0049
    • This invention relates to an oil cooler suitably applied to a hydraulic circuit for a power steering unit, and a method of manufacturing the same. The oil cooler according to the present invention consists of a tube bundle composed of a plurality of parallelly arranged tubes, volume chambers provided at both ends of the tube bundle, and a plurality of cooling fins fitted around the tubes, and is characterized in that it is made compact, has a high cooling capacity and a high torsional rigidity and can suppress the occurrence of noise. The method of manufacturing oil coolers according to the present invention is caracterized by comprising the steps of: (A) producing cooling fins by piercing in sheet materials to be worked into cooling fins a plurality of holes having axially projecting edges through which a plurality of tubes are to be inserted and further forming pores in the vicinity of the holes through which threadlike soldering material is to be inserted, (B) fitting the holes of the cooling fins around the tubes and inserting the soldering material through the pores of the cooling fins, and (C) melting the soldering material to bond the projecting edges of the cooling fins with the tubes. Thus an oil cooler can be manufactured simply at a low cost.
    • 本发明涉及一种适用于动力转向装置的液压回路的油冷却器及其制造方法。 根据本发明的油冷却器由管束构成,管束由多个平行布置的管构成,容纳室设置在管束的两端,多个冷却翅片安装在管周围,其特征在于: 制造紧凑,具有高冷却能力和高扭转刚度,并且可以抑制噪声的发生。 根据本发明的制造油冷却器的方法的特征在于包括以下步骤:(A)通过将片材加工成散热片来制造冷却翅片,多个具有轴向突出边缘的孔,多个管 将被插入孔中,并在孔附近进一步形成孔,通过该孔附近插入线状焊料,(B)将冷却翅片的孔安装在管周围,并将焊料插入散热片的孔中, 和(C)熔化焊接材料以将冷却翅片的突出边缘与管接合。 因此,可以以低成本简单地制造油冷却器。
    • 6. 发明申请
    • HOLLOW COIL SPRING AND METHOD FOR MANUFACTURING SAME
    • 中空螺旋弹簧及其制造方法
    • WO2012073786A9
    • 2013-06-06
    • PCT/JP2011077055
    • 2011-11-24
    • NHK SPRING CO LTDYAJIMA TAKASHIMORINO KENICHIRO
    • YAJIMA TAKASHIMORINO KENICHIRO
    • B21D41/04B21D22/14B21F35/00B21H1/18F16F1/06
    • F16F1/042B21D11/06B21D22/14B21D41/045B21F35/00Y10T29/49609
    • Provided are a hollow coil spring and a method for manufacturing the hollow coil spring, whereby inner surface corrosion can be prevented, and product appearance can be improved. In an end sealing step, the core material of an end (Wa) of a spring material (W) is gathered by machining to seal the end (Wa). Spinning is preferably carried out as the form of machining. While pressing the end of the spring material (W) with a squeezing roller (R), for example, toward the inside in the radial direction, the squeezing roller (R) is appropriately moved in the axial direction as necessary. The end (Wa) of the spring material (W) is thus occluded, as shown in figure 3, eliminating the need to use a separate member such as a lid member. Such an end sealing step can be carried out immediately after an inner surface processing step, for example. In a coil forming step performed after the end sealing step, even if the end (Wa) of the spring material (W) is gripped and the spring material (W) is wrapped around a rod, the formation of a gap at the end (Wa) will be prevented.
    • 本发明提供一种中空螺旋弹簧和中空螺旋弹簧的制造方法,能够防止内表面的腐蚀,能够提高产品的外观。 在端部密封步骤中,弹簧材料(W)的端部(Wa)的芯材料通过机械加工来密封端部(Wa)。 旋转优选作为加工的形式进行。 在挤压辊(R)例如向径向内侧按压弹簧材料(W)的端部时,挤压辊(R)根据需要适当地沿轴向移动。 因此,如图3所示,弹簧材料(W)的端部(Wa)被封闭,消除了使用诸如盖构件的单独构件的需要。 例如,可以在内表面处理工序之后立即进行这样的端部密封工序。 在端密封步骤之后进行的线圈形成步骤中,即使弹簧材料(W)的端部(Wa)被夹紧并且弹簧材料(W)缠绕在杆上,则在端部处形成间隙 Wa)将被阻止。
    • 9. 发明申请
    • CUSHION MEMBER, METHOD AND APPARATUS FOR MANUFACTURING THE SAME
    • 衬垫构件,制造该衬垫的方法和装置
    • WO0050681B1
    • 2000-11-16
    • PCT/JP0001038
    • 2000-02-23
    • NHK SPRING CO LTDMINEGISHI TAKESHIEBIHARA TAKASHI
    • MINEGISHI TAKESHIEBIHARA TAKASHI
    • B68G7/02D04H1/00D04H3/07D04H3/16F16F3/10D04H3/02
    • D04H3/037D04H3/07D04H3/16Y10S5/953
    • A cushion manufacturing apparatus comprises a plurality of nozzles for continuously discharging a softened thermoplastic resin, thereby looping a plurality of continuous filaments with the respective contact portions thereof bonded together, first guide portions (41, 42) for moving the continuous filaments inward from opposite surfaces in the thickness direction of the cushion member as the filaments are looped, and second guide portions (43, 44) for moving the filaments inward from the opposite sides of the cushion member. The guide portions (41, 42; 43, 44) are provided with a plurality of rollers (50, 52, 60, 62) individually having outer peripheral surfaces projected or recessed corresponding to the outline of the profile of the cushion member and belts (54, 55, 64, 65) stretched between the rollers and capable of endlessly running to change the respective shapes thereof depending on the respective shapes of the outer peripheral surfaces of the rollers, thereby forming the shaping guide surfaces (56, 57, 66, 67).
    • 本发明提供一种缓冲垫制造装置,该缓冲垫制造装置具有:多个喷嘴,其连续排出软化了的热塑性树脂,使多个连续的长丝成环状并使各自的接触部彼此接合;第一引导部(41,42),其使连续长丝从相对面 在长丝卷绕时在缓冲件的厚度方向上延伸;以及第二引导部分(43,44),用于使长丝从缓冲件的相对侧向内移动。 导向部分(41,42; 43,44)设置有多个辊子(50,52,60,62),每个辊子具有与缓冲部件的轮廓相对应的突出或凹陷的外周表面和带( (56,55,64,65),它们在所述辊之间被拉伸并且能够循环运转以根据所述辊的外周表面的相应形状改变其各自的形状,从而形成所述成形引导表面 67)。
    • 10. 发明申请
    • CONDUCTIVE CONTACT UNIT SYSTEM
    • 导电接触单元系统
    • WO1997039361A1
    • 1997-10-23
    • PCT/JP1997001237
    • 1997-04-10
    • NHK SPRING CO., LTD.KAZAMA, Toshio
    • NHK SPRING CO., LTD.
    • G01R01/06
    • G01R1/06733G01R1/06716G01R1/06722G01R1/06772G01R1/07307
    • In a conductive contact unit, the base-side end section of a compression spring which urges a contact itself or a needle-like contact is housed in a supporting hole bored into a substrate. One end of the internal conductor of the substrate is exposed at the bottom of the supporting hole and the exposed part of the conductor is electrically connected to the base-side end section of the compression spring. Therefore, no electrical connector is required and the electrical resistance between the internal conductor of the substrate and contact is minimized. In order to achieve excellent electrical contact, it is possible to solder the base-side end section of the compression spring to the exposed part of the internal conductor having a flat section or recessed section.
    • 在导电接触单元中,将接触本身或针状接触的压缩弹簧的底侧端部容纳在钻入基板中的支撑孔中。 基板的内部导体的一端在支撑孔的底部露出,导体的露出部电连接到压缩弹簧的基端侧端部。 因此,不需要电连接器,并且使衬底内部导体和触点之间的电阻最小化。 为了实现优异的电接触,可以将压缩弹簧的底侧端部焊接到具有平坦部分或凹部的内部导体的露出部分。