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    • 1. 发明专利
    • 穴あけ加工装置および穴あけ加工方法
    • 钻井装置和钻井方法
    • JP2014240098A
    • 2014-12-25
    • JP2013122538
    • 2013-06-11
    • Jfeスチール株式会社Jfe Steel Corp新日本工機株式会社Shin Nippon Koki Co Ltd
    • HIROIKE SHOICHIROHAYASHI HIROMASAYAMASHITA KOJISHIRASAKI KIMITOMASUDA TAKAATSUHATANO ATSUOHORIE TOSHIHARU
    • B23B49/00B23B49/02
    • 【課題】主軸軸芯とガイドブッシュ軸芯との軸芯合わせの必要がない穴あけ加工装置および穴あけ加工方法を提供すること。【解決手段】主軸Oを有するとともにドリル12を主軸Oに沿って装着するクイル11を有し、クイル11に装着されたドリル12を回転・送り可能な装置本体10と、ワーク20を主軸Oに沿って支持するクランプ装置14と、支持されたワーク20の先端部に設けられ、ドリル12の先端をガイドするガイドブッシュ16とを具備し、ガイドブッシュ16は、主軸Oに対して固定されたブロック31として構成され、クイル11に主軸Oに沿ってガイド穴形成用ドリル12aを取り付けて、それによりガイド穴19を形成したものであり、ガイド穴19は、加工用ドリル12bの加工径に嵌め合う内径を有し、加工用ドリル12bにより、ガイド穴19にガイドされた状態で、ワーク20の穴あけ加工が行われる。【選択図】図7
    • 要解决的问题:提供一种钻孔装置和钻孔方法,而不需要将主轴的轴线与导向轴的轴线对准。解决方案:钻孔装置包括:装置主体10,其具有套筒11, 具有主轴O,并且沿着主轴O安装有钻头12,并且可以旋转并进给安装在套筒11上的钻头12; 用于沿着主轴O支撑工件20的夹紧装置14; 以及引导衬套16,其被设置在被支撑工件20的前端部并且引导钻头12的前端。引导衬套16构成为固定在主轴O上的块31, 钻头12a沿着主轴O安装在套筒11中,由此形成引导孔19。 导向孔19具有与工作钻头12b的工作直径相配合的内径,并且通过工作钻头12b在被引导孔19引导的状态下执行工件20的钻孔。
    • 2. 发明专利
    • Process instruction conversion program, storage medium, and process instruction conversion device
    • 过程指导转换程序,存储介质和过程指令转换设备
    • JP2014010678A
    • 2014-01-20
    • JP2012147468
    • 2012-06-29
    • Shin Nippon Koki Co Ltd新日本工機株式会社
    • NISHIBASHI NOBUTAKA
    • G05B19/4103G05B19/416
    • G05B19/4155
    • PROBLEM TO BE SOLVED: To allow for a treatment for reducing an error in processing a shape generated by a post-interpolated acceleration/deceleration processing in a short period while lessening work loads in a cost aspect and a work aspect.SOLUTION: A processing instruction conversion device 2 derives a reference machine shaft path on the basis of a numerical control (NC) program, derives a post-converted machine shaft path by performing a specific conversion process to the derived reference machine spindle path, converts the post-converted machine spindle path into a post-converted NC program and includes a conversion part 4 that outputs the post-converted NC program to a numerical control device 200 such that the numerical control device 200 calculates a machine spindle path on the basis of the post-converted NC program. As the specific conversion process, the conversion part 4 performs an arithmetic process of calculating a correction amount equivalent to an approximation value of an error between a machine spindle path obtained from a transfer pulse after a post-interpolated acceleration/deceleration process is performed and the reference machine spindle path and calculating the post-converted machine spindle path having the reference machine spindle path corrected in a direction in which the error is cancelled out by the calculated correction amount.
    • 要解决的问题:在成本方面和工作方面减少工作负荷的同时,允许在短时间内减少处理由后插值加速/减速处理产生的形状的误差的处理。解决方案:处理指令 转换装置2基于数控(NC)程序导出参考机器轴路径,通过对导出的参考机床主轴路径执行特定的转换处理,导出后转换机床轴路径,转换后转换机床主轴 路径进入转换后的NC程序,并且包括将转换后的NC程序输出到数控装置200的转换部分4,使得数控装置200基于转换后的NC程序来计算机床主轴路径 。 作为特定转换处理,转换部4进行运算处理,算出与进行后插入加/减速处理之后的转印脉冲获得的机械主轴路径之间的误差的近似值相等的修正量, 参考机床主轴路径,并且计算经过计算的校正量将校正了误差的方向校正的参考机床主轴路径的后转换机床主轴路径。
    • 3. 发明专利
    • Machine tool
    • 机床
    • JP2013220483A
    • 2013-10-28
    • JP2012091792
    • 2012-04-13
    • Shin Nippon Koki Co Ltd新日本工機株式会社
    • ISHIDA YASUHIKO
    • B23Q5/04B23Q3/12B23Q16/10
    • PROBLEM TO BE SOLVED: To provide a machine tool capable of preventing fall-off of an attachment when rotating it for indexing, while smoothly changing an attachment.SOLUTION: A machine tool 1 includes a release regulation mechanism 6 that regulates the release of an attachment body 53 by an attachment clamp mechanism 5 and releases the regulation. The release regulation mechanism 6 comprises: a collet guide 32 movable between a constraint position in which the collet 25 at a second position is constrained to a closing position so that the holding of the attachment body 53 is not released, and a constraint release position in which the constraint is released for allowing the collet to move to an open position; a spring 35 that energizes the collet guide 32 from the constraint release position to the constraint position; and a contact member 100 that operates the collet guide 32 in counter to the energizing force of the spring 35 so that the collet guide 32 is moved from the constraint position to the constraint release position, when a main spindle 2 has moved to a detachable position in which the main spindle can be detachably installed on the attachment which is placed on a prescribed carrying position.
    • 要解决的问题:提供一种能够在顺利地改变附件的同时在安装旋转时防止附件脱落的机床。解决方案:机床1包括释放调节机构6,其调节附件的释放 主体53通过附接夹紧机构5释放。 释放调节机构6包括:夹头引导件32,其在第二位置处的夹头25被约束到关闭位置的约束位置之间移动,使得附接体53的保持不被释放,并且约束释放位置 释放约束以允许夹头移动到打开位置; 将夹头引导件32从约束释放位置激励到约束位置的弹簧35; 以及接触构件100,其在主轴2已经移动到可拆卸位置时相对于弹簧35的激励力操作夹头引导件32,使得夹头引导件32从约束位置移动到约束释放位置 其中主轴可以可拆卸地安装在放置在规定的携带位置上的附件上。
    • 4. 发明专利
    • Vertical type turning device
    • 垂直式旋转装置
    • JP2013188810A
    • 2013-09-26
    • JP2012055312
    • 2012-03-13
    • Shin Nippon Koki Co Ltd新日本工機株式会社
    • AOTA HIDEKI
    • B23Q11/12B23B3/10B23B25/00B23Q17/00
    • PROBLEM TO BE SOLVED: To prevent a workpiece machining accuracy from being lowered due to non-uniform thermal expansion of a supporting device supporting a work table from below in a vertical type turning device.SOLUTION: A vertical type turning device includes a table cooling device 10 and a bearing cooling device 12a discharging an oil for cooling a supporting device 4. The table cooling device 10 has a plurality of sets of inner nozzles 46 and a plurality of outer nozzles 48 discharging the oil at a plurality of different positions in a circumferential direction around a rotational axis of a workpiece, and flow rate control valves 16 for individually varying an oil flow rate discharged from each set of the inner nozzles 46 and each of the outer nozzles 48. The bearing cooling device 12a has a plurality of sets of bearing cooling nozzles 54 discharging the oil at a plurality of different positions in the circumferential direction, and the flow rate control valves 16 for individually varying the oil flow rate discharged from each set of bearing cooling nozzles 54.
    • 要解决的问题:为了防止工件加工精度由于垂直型车削装置中从下方支撑工作台的支撑装置的不均匀热膨胀而降低。解决方案:一种垂直型车削装置,包括工作台冷却装置 10和用于冷却支撑装置4的油排出的轴承冷却装置12a。工作台冷却装置10具有多组内部喷嘴46和多个外部喷嘴48,其在周向的多个不同位置排出油 围绕工件的旋转轴线的方向,以及用于单独改变从每个内部喷嘴46和每个外部喷嘴48排出的油流量的流量控制阀16.轴承冷却装置12a具有多组 在圆周方向上在多个不同位置排出油的轴承冷却喷嘴54以及单独的流量控制阀16 改变从每组轴承冷却喷嘴54排出的油流量。
    • 5. 发明专利
    • Vertical lathe
    • 垂直线
    • JP2013000859A
    • 2013-01-07
    • JP2011136585
    • 2011-06-20
    • Shin Nippon Koki Co Ltd新日本工機株式会社
    • AOTA HIDEKITAJIMA TADASHI
    • B23Q11/12B23B3/10
    • PROBLEM TO BE SOLVED: To suppress degradation of processing accuracy of a workpiece caused by heat from a bearing for receiving a work table while preventing degradation of operation efficiency, in a vertical lathe.SOLUTION: A rotating device 2 of this vertical lathe includes a bearing cooling device 32 for cooling a bearing 26, and a support base cooling device 34 for cooling a support base 24 by oil, wherein the support base 24 is formed with an annular lower mounting part 24a coupled to a lower ring 26b of the bearing 26, an inner storage groove 24b arranged along an inner peripheral surface of the lower mounting part 24a for storing cooling oil, and an outer storage groove 24c arranged along an outer peripheral surface of the lower mounting part 24a for storing the cooling oil; and the support base cooling device 34 includes an inner storage groove discharge nozzle 34c for discharging the oil so that the cooling oil circumferentially flows in the inner storage groove 24b, and an outer storage groove discharge nozzle 34f for discharging the oil so that the cooling oil circumferentially flows in the outer storage groove 24c.
    • 解决的问题:在垂直车床中,为了抑制由用于接收工作台的轴承的热量引起的工件的加工精度的劣化,同时防止操作效率的降低。 解决方案:该立式车床的旋转装置2包括用于冷却轴承26的轴承冷却装置32和用于通过油冷却支撑基座24的支撑基座冷却装置34,其中支撑基座24形成有 环形下部安装部分24a,其联接到轴承26的下部环26b;沿着下部安装部分24a的内周表面设置的用于存储冷却油的内部存储槽24b;以及沿着外周表面布置的外部存储槽24c 用于储存冷却油的下部安装部分24a; 并且支撑基体冷却装置34包括用于排出油的内部存储槽排出喷嘴34c,以使冷却油在内部存储槽24b中周向流动,以及外部存储槽排出喷嘴34f,用于排出油,使得冷却油 周向地在外部存储槽24c中流动。 版权所有(C)2013,JPO&INPIT
    • 6. 发明专利
    • Machining method of fiber reinforced composite material, and tool therefor
    • 纤维增强复合材料的加工方法及其工具
    • JP2012210689A
    • 2012-11-01
    • JP2011078184
    • 2011-03-31
    • National Institute Of Advanced Industrial Science & TechnologyShin Nippon Koki Co Ltd新日本工機株式会社独立行政法人産業技術総合研究所
    • KANO SEISUKESHIMURA HIROFUMIOKANE TOSHIMITSUHYODO TAKASHIKAWAMOTO SHIGERU
    • B23B27/14
    • PROBLEM TO BE SOLVED: To provide a machining method of a material having largely anisotropic mechanical characteristics and a tool therefor, capable of performing high-quality machining of a fiber reinforced composite material (a unidirectional growth solidification metallic material such as a crystalline polymer having directionality in a crystal) being a material whose mechanical characteristics largely vary depending on the direction of the material inside, particularly, a carbon fiber reinforced plastic (CFRP).SOLUTION: This machining method of the fiber reinforced composite material is characterized by cutting a surface of the fiber reinforced composite material by using a blade-shaped tool made of a hard material selected from a cemented carbide, a cermet, a ceramics, a ceramics coating film, a diamond and CBN, and having a curved shape having a radius R of a specific curvature in an edge of a rake surface. In the blade-shaped tool for machining the fiber reinforced composite material, the blade-shaped tool made of the hard material selected from the cemented carbide, the cermet, the ceramics, the ceramics coating film, the diamond and the CBN, has the smooth edge tip, and has a curved shape toward the outside from a central part of the edge, and is 30°-60° in a wedge angle.
    • 要解决的问题:为了提供具有大的各向异性机械特性的材料的加工方法及其工具,能够进行纤维增强复合材料的高质量加工(单向生长固化金属材料如结晶 具有晶体方向性的聚合物)是其机械特性根据材料内部的方向,特别是碳纤维增强塑料(CFRP)的大小而变化的材料。 解决方案:该纤维增强复合材料的加工方法的特征在于,使用由硬质合金,金属陶瓷,陶瓷等形成的硬质材料制成的刀片状工具切割纤维增强复合材料的表面, 陶瓷涂膜,金刚石和CBN,并且具有在前表面的边缘中具有特定曲率的半径R的弯曲形状。 在用于加工纤维增强复合材料的刀片形工具中,由硬质合金,金属陶瓷,陶瓷,陶瓷涂层,金刚石和CBN等硬质材料制成的刀形工具具有光滑 边缘尖端,并且从边缘的中心部分朝向外侧具有弯曲形状,并且以楔角为30°-60°。 版权所有(C)2013,JPO&INPIT
    • 7. 发明专利
    • Solid polymer fuel battery cell cartridge and stack structure thereof
    • 固体聚合物燃料电池电池盒及其堆叠结构
    • JP2012186040A
    • 2012-09-27
    • JP2011048740
    • 2011-03-07
    • Shin Nippon Koki Co Ltd新日本工機株式会社
    • TATSUMI SHINYA
    • H01M8/02H01M8/04H01M8/10H01M8/24
    • Y02E60/521
    • PROBLEM TO BE SOLVED: To provide a solid polymer fuel battery cell cartridge capable of improving maintainability of a structure, in which plural cells are laminated, and realizing a stack structure with a high degree of freedom in installation, and a stack structure thereof.SOLUTION: A cell cartridge 1 comprises a cell 2, a pair of electrode plates 3, 4, an external connection member 5, a fixing band 6, and electrode terminals 24, 25. The external connection member 5 blocks one part of an outer peripheral edge of a laminate 17 of the cell 2 and the electrode plates 3, 4, and has a hydrogen introduction path 5a and a hydrogen discharging path 5b. The fixing band 6 blocks a remaining portion of the outer peripheral edge of the laminate 17. The electrode terminals 24, 25 penetrate through the external connection member 5 to the outside. The fixing band 6 has a peripheral winding portion 6a for holding the laminate 17 from both front and rear ends in a laminating direction.
    • 解决问题的方案:提供一种固体聚合物燃料电池盒,其能够改善层叠多个电池的结构的可维护性,并且实现了高度自由度的堆叠结构,以及堆叠结构 它们。 解决方案:电池盒1包括电池单元2,一对电极板3,4,外部连接构件5,固定带6和电极端子24,25。外部连接构件5阻挡一部分 电池单元2的层叠体17的外周边缘和电极板3,4,具有氢引入路径5a和氢排出路径5b。 固定带6阻挡层叠体17的外周边缘的剩余部分。电极端子24,25穿过外部连接构件5到达外部。 固定带6具有用于沿着层压方向从前端和后端保持叠层17的周边缠绕部分6a。 版权所有(C)2012,JPO&INPIT
    • 8. 发明专利
    • Numerical control device
    • 数控装置
    • JP2012032960A
    • 2012-02-16
    • JP2010171050
    • 2010-07-29
    • Shin Nippon Koki Co Ltd新日本工機株式会社
    • NISHIBASHI NOBUTAKA
    • G05B19/416
    • G05B19/402G05B19/416G05B2219/43062G05B2219/43065G05B2219/43102G05B2219/43158G05B2219/43172G05B2219/50103G05B2219/50198
    • PROBLEM TO BE SOLVED: To prevent a moving object from being displaced from a machining path that is instructed by a machining command program and improve a response from the command of an operation involving a velocity change till the execution of the operation when executing the operation involving the velocity change of the moving object separate from normal transfer of the moving object during the machining of a workpiece in a machine tool.SOLUTION: In a numerical control device 2, in response to a special command being input in a special command input device 122, an operation unit 12 changes the length of a set unit time from a length immediately before the input of the special command to a length corresponding to the velocity change of the moving object instructed by the special command, and calculates from the machining path the amount of movement in the movement axis direction of respective supports 102b, 106a, 108a, and 110a per set unit time after the length is changed.
    • 要解决的问题:为了防止移动物体从加工指令程序指示的加工路径移位,并且提高从涉及速度变化的操作的命令直到执行操作时的执行的响应 在机床加工工件期间涉及移动物体的速度变化的操作与运动物体的正常转移分离。 解决方案:在数字控制装置2中,响应于在特殊命令输入装置122中输入的特殊命令,操作单元12将设置单位时间的长度从紧接在特殊命令输入装置122的输入之前的长度改变 命令到由特殊命令指示的与移动物体的速度变化相对应的长度,并且根据加工路径计算各个支撑件102b,106a,108a和110a在每个单位时间的移动轴线方向上的移动量 长度改变了。 版权所有(C)2012,JPO&INPIT
    • 9. 发明专利
    • Apparatus for manufacturing cylindrical can
    • 制造圆柱罐的装置
    • JP2012030287A
    • 2012-02-16
    • JP2011137180
    • 2011-06-21
    • Daiwa Can Co LtdShin Nippon Koki Co Ltd大和製罐株式会社新日本工機株式会社
    • MATSUSHITA MASABUMIFURUKAWA KOICHIMATSUBA MASAFUMIOBARA HIDETOMOHASHIMOTO KEISUKE
    • B23K26/20B23K26/10B23K37/053
    • PROBLEM TO BE SOLVED: To provide an apparatus for manufacturing a cylindrical can which can reduce a front/back difference at two edges to be welded in a welding member.SOLUTION: The apparatus for manufacturing a cylindrical can comprises a guide mechanism 4 that guides two edges e1, e2 in a welding member W conveyed by a conveying device 2 to a welding position P. The guide mechanism 4 comprises: a first guide part 32 that guides the edges e1, e2 so as to gradually come close to each other when the welding member W is conveyed from a mutually spaced state of the edges e1, e2 in a radial direction of the welding member W to a welding position P side; a second guide part 34 that guides the edges e1, e2 to the welding position P side while maintaining a parallel state at a spaced distance provided after the approach by the first guide part 32; and a third guide part 36 that guides the edges e1, e2 so that the edges e1, e2 are drawn to each other so as to be partly elastically deformed in a radial direction of the welding member W and are guided to the welding position P with the end faces of the edges e1, e2 being butted against each other.
    • 要解决的问题:提供一种用于制造圆筒形罐的装置,其可以减少焊接部件中待焊接的两个边缘处的前后差。 解决方案:用于制造圆柱形罐的装置包括引导机构4,引导机构4将由输送装置2输送的焊接构件W中的两个边缘e1,e2引导到焊接位置P.引导机构4包括:第一引导件 当焊接构件W从焊接构件W的径向上的边缘e1,e2的相互间隔的状态被输送到焊接位置P时,引导边缘e1,e2逐渐接近的部分32 侧; 第二引导部分34,其将边缘e1,e2引导到焊接位置P侧,同时保持在由第一引导部32接近之后提供的间隔距离处的平行状态; 以及第三引导部36,其引导边缘e1,e2,使得边缘e1,e2相互牵引,以便在焊接部件W的径向方向上部分弹性变形,并被引导到焊接位置P, 边缘e1,e2的端面彼此对接。 版权所有(C)2012,JPO&INPIT
    • 10. 发明专利
    • Forming machine for tapered paper container
    • 成型机用于锥形纸容器
    • JP2012024962A
    • 2012-02-09
    • JP2010163761
    • 2010-07-21
    • Daiwa Can Co LtdNippon Dekishii:KkShin Nippon Koki Co Ltd大和製罐株式会社新日本工機株式会社株式会社日本デキシー
    • MATSUDA YOSHIHIROMATSUMOTO TAKEHIROMURATA MOTOYOSHI
    • B31B50/00
    • PROBLEM TO BE SOLVED: To prevent the shift of the end portion of a blank wound around a mandrel, in the case of forming a tapered container shell.SOLUTION: In the forming machine in which a plurality of mandrels 12 are attached to the outer peripheral part of a turret 10 at equal intervals, which supplies the blank 5 toward the front side in the rotating direction of the mandrels 12, and which winds the blank 5 around the outer peripheral surface of each of the mandrels 12 so as to form the tapered hollow container shell, the turret 10 is configured to temporarily stop the mandrel 12 at a paper feed position 21 where the blank 5 is to be wound around the mandrel, and a feeder 22 for supplying the blank 5 at the paper feed position 21 and toward the front side of the mandrel 12 in the rotating direction of the turret 10 is provided, the feeder 22 is configured to feed the blank 5 to the paper feed position 21 from a direction parallel to the bus line of the outer peripheral surface of the mandrel 12, and also, configured to position the blank 5 without changing the paper feed direction.
    • 要解决的问题:为了防止在形成锥形容器壳的情况下卷绕在心轴上的坯料的端部的移动。 解决方案:在成形机中,其中多个心轴12以相等的间隔附接到转台10的外周部分,其将坯料5朝向心轴12的旋转方向的前侧提供,以及 其将坯料5卷绕在每个心轴12的外周表面周围,以形成锥形中空容器壳体,转台10构造成在坯料5将要进纸位置21处暂时停止心轴12 围绕芯棒卷绕,并且设置有用于在进纸位置21沿着转盘10的旋转方向供给坯料5并沿着转盘10的旋转方向朝向心轴12的前侧的进给器22,进给器22构造成将坯料5 从平行于心轴12的外周面的总线的方向到进纸位置21,并且还被配置为在不改变送纸方向的情况下定位坯料5。 版权所有(C)2012,JPO&INPIT