| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 中空体元件及部件组件 | CN201210007249.6 | 2006-05-24 | CN102554110B | 2016-03-02 | 杰瑞·巴贝吉; 理查德·汉弗伯特; 迈克尔·维也斯 |
| 本发明涉及一种用于制造诸如螺母元件的中空体元件(200)的方法,该中空体元件(200)用于通常由钢制成的部件(280),所述方法特别用于制造具有大致呈方形或矩形外轮廓(202)的中空体元件。所述方法包括:使用包含多个工作站的接续组合工具(10),先在轮廓中冲压出孔(204),然后在形式为轮廓条(1)或卷形体的轮廓中切制出独立元件,可选地随后形成柱形螺纹(206)。本发明的特征在于,在工作站中执行穿孔加工或者冲孔加工。本发明还涉及中空体元件(200)、部件、接续组合工具(10)和滚压磨机(600,602)。 | ||||||
| 2 | 不锈钢板制焊接螺母的制造方法及该方法所用的冲裁冲头 | CN200910175731.9 | 2009-09-29 | CN101722404A | 2010-06-09 | 新城启氏 |
| 本发明提供不锈钢板制焊接螺母的制造方法及该方法所用的冲裁冲头,使得能够通过对不锈钢板的冲裁加工容易地制造出薄且螺纹公称直径在M1.6前后的通称为微螺纹的小尺寸焊接螺母。不锈钢板制焊接螺母的制造方法的特征在于包括以下工序:在具有与螺母的高度大致相等的厚度的不锈钢板的原材料(20)上冲裁加工螺纹底孔(22)的工序;在原材料上以螺纹底孔为中心冲裁加工螺母外形以成形螺母主体(23),同时在螺母主体的底部外周部位成形多个焊接突起(24)的工序;以及在螺母主体的螺纹底孔的内周部加工内螺纹(25)的工序。冲裁加工螺母外形时所使用的冲裁冲头(5)在下端外周部设有用于成形焊接突起的多个切口凹部(8)。 | ||||||
| 3 | 中空体元件的制造方法、中空体元件、部件组件、用于制造中空体元件的行进工具以及滚压机构 | CN200680021628.3 | 2006-05-24 | CN101198426A | 2008-06-11 | 杰瑞·巴贝吉; 理查德·汉弗伯特; 迈克尔·维也斯 |
| 本发明涉及一种用于制造诸如螺母元件的中空体元件(200)的方法,该中空体元件(200)用于通常由钢制成的部件(280),所述方法特别用于制造具有大致呈方形或矩形外轮廓(202)的中空体元件。所述方法包括:使用包含多个工作站的接续组合工具(10),先在轮廓中冲压出孔(204),然后在形式为轮廓条(1)或卷形体的轮廓中切制出独立元件,可选地随后形成柱形螺纹(206)。本发明的特征在于,在工作站中执行穿孔加工或者冲孔加工。本发明还涉及中空体元件(200)、部件、接续组合工具(10)和滚压磨机(600,602)。 | ||||||
| 4 | 自攻丝内孔固定件及其成形方法 | CN200380108161.2 | 2003-11-24 | CN1735751A | 2006-02-15 | H·A·拉杜斯于尔 |
| 一种具有自攻丝孔(22)的内孔固定件(20),所述自攻丝孔用于接纳普通螺旋螺纹凸形固定件,不用攻丝形成连续的阴螺纹,内孔固定件提供经常扭矩。所述的孔包括一个圆筒形内表面(32)和多个周向间隔分布的凹槽(34),凹槽(34)的总体积等于由孔的大直径和圆筒形表面的内径限定的环形带的体积减去圆筒形部分(22)的体积。一种通过滚轧连续金属条带成形自结合内孔固定件的方法,金属条带有一个中央导向部分,方法包括穿过导向部分冲压自攻丝通孔,和切导向部分或条带,固定件可用易卸连接器连接。 | ||||||
| 5 | 间隔螺母的制造方法 | CN200980100241.0 | 2009-12-25 | CN101952067B | 2013-03-20 | 门野泰之; 门野祐士 |
| 本发明提供一种间隔螺母的制造方法,不采用数控车床,采用现有的冲压加工设备即可进行加工,部件供应成本低,而且制造效率高,制造成本低。间隔螺母配置于箱体和基板之间,该基板配置于上述箱体内,所述间隔螺母用于使上述基板从上述箱体离开预定间隔尺寸并固定,该间隔螺母的制造方法具备下述工序:第一工序,通过对具有预定厚度尺寸的金属板材进行冲压加工而形成具有预定长度的突起部;第二工序,对上述突起部进行锻造而使该突起部成形为有底圆筒形的轴部,并且通过对上述轴部的基端部的周缘进行冲压加工而形成凸缘部;第三工序,通过对上述轴部的末端部进行冲压加工而形成开口部;第四工序,朝径向内侧冲压上述轴部的基端部,并沿着上述轴部的周向形成槽部;第五工序,通过沿着上述凸缘部的外周进行冲压加工而形成细齿部,并且通过冲压加工将上述凸缘部从上述金属板材冲裁下来;以及第六工序,在上述轴部的内周面部形成螺纹槽。 | ||||||
| 6 | 中空体元件的制造方法、中空体元件、部件组件、用于制造中空体元件的行进工具以及滚压机构 | CN201210007249.6 | 2006-05-24 | CN102554110A | 2012-07-11 | 杰瑞·巴贝吉; 理查德·汉弗伯特; 迈克尔·维也斯 |
| 本发明涉及一种用于制造诸如螺母元件的中空体元件(200)的方法,该中空体元件(200)用于通常由钢制成的部件(280),所述方法特别用于制造具有大致呈方形或矩形外轮廓(202)的中空体元件。所述方法包括:使用包含多个工作站的接续组合工具(10),先在轮廓中冲压出孔(204),然后在形式为轮廓条(1)或卷形体的轮廓中切制出独立元件,可选地随后形成柱形螺纹(206)。本发明的特征在于,在工作站中执行穿孔加工或者冲孔加工。本发明还涉及中空体元件(200)、部件、接续组合工具(10)和滚压磨机(600,602)。 | ||||||
| 7 | 滚压机构 | CN201010256167.6 | 2006-05-24 | CN101947631B | 2012-06-06 | 杰瑞·巴贝吉; 理查德·汉弗伯特; 迈克尔·维也斯 |
| 本发明涉及一种用于制造诸如螺母元件的中空体元件(200)的方法,该中空体元件(200)用于通常由钢制成的部件(280),所述方法特别用于制造具有大致呈方形或矩形外轮廓(202)的中空体元件。所述方法包括:使用包含多个工作站的接续组合工具(10),先在轮廓中冲压出孔(204),然后在形式为轮廓条(1)或卷形体的轮廓中切制出独立元件,可选地随后形成柱形螺纹(206)。本发明的特征在于,在工作站中执行穿孔加工或者冲孔加工。本发明还涉及中空体元件(200)、部件、接续组合工具(10)和滚压磨机(600,602)。 | ||||||
| 8 | 用于制造中空体元件的方法 | CN201010256207.7 | 2006-05-24 | CN101954440B | 2012-03-21 | 杰瑞·巴贝吉; 理查德·汉弗伯特; 迈克尔·维也斯 |
| 本发明涉及一种用于制造诸如螺母元件的中空体元件(200)的方法,该中空体元件(200)用于通常由钢制成的部件(280),所述方法特别用于制造具有大致呈方形或矩形外轮廓(202)的中空体元件。所述方法包括:使用包含多个工作站的接续组合工具(10),先在轮廓中冲压出孔(204),然后在形式为轮廓条(1)或卷形体的轮廓中切制出独立元件,可选地随后形成柱形螺纹(206)。本发明的特征在于,在工作站中执行穿孔加工或者冲孔加工。本发明还涉及中空体元件(200)、部件、接续组合工具(10)和滚压磨机(600,602)。 | ||||||
| 9 | 用于制造中空体元件的方法 | CN201010256207.7 | 2006-05-24 | CN101954440A | 2011-01-26 | 杰瑞·巴贝吉; 理查德·汉弗伯特; 迈克尔·维也斯 |
| 本发明涉及一种用于制造诸如螺母元件的中空体元件(200)的方法,该中空体元件(200)用于通常由钢制成的部件(280),所述方法特别用于制造具有大致呈方形或矩形外轮廓(202)的中空体元件。所述方法包括:使用包含多个工作站的接续组合工具(10),先在轮廓中冲压出孔(204),然后在形式为轮廓条(1)或卷形体的轮廓中切制出独立元件,可选地随后形成柱形螺纹(206)。本发明的特征在于,在工作站中执行穿孔加工或者冲孔加工。本发明还涉及中空体元件(200)、部件、接续组合工具(10)和滚压磨机(600,602)。 | ||||||
| 10 | 间隔螺母的制造方法 | CN200980100241.0 | 2009-12-25 | CN101952067A | 2011-01-19 | 门野泰之; 门野祐士 |
| 本发明提供一种间隔螺母的制造方法,不采用数控车床,采用现有的冲压加工设备即可进行加工,部件供应成本低,而且制造效率高,制造成本低。间隔螺母配置于箱体和基板之间,该基板配置于上述箱体内,所述间隔螺母用于使上述基板从上述箱体离开预定间隔尺寸并固定,该间隔螺母的制造方法具备下述工序:第一工序,通过对具有预定厚度尺寸的金属板材进行冲压加工而形成具有预定长度的突起部;第二工序,对上述突起部进行锻造而使该突起部成形为有底圆筒形的轴部,并且通过对上述轴部的基端部的周缘进行冲压加工而形成凸缘部;第三工序,通过对上述轴部的末端部进行冲压加工而形成开口部;第四工序,朝径向内侧冲压上述轴部的基端部,并沿着上述轴部的周向形成槽部;第五工序,通过沿着上述凸缘部的外周进行冲压加工而形成细齿部,并且通过冲压加工将上述凸缘部从上述金属板材冲裁下来;以及第六工序,在上述轴部的内周面部形成螺纹槽。 | ||||||
| 11 | 滚压机构 | CN201010256167.6 | 2006-05-24 | CN101947631A | 2011-01-19 | 杰瑞·巴贝吉; 理查德·汉弗伯特; 迈克尔·维也斯 |
| 本发明涉及一种用于制造诸如螺母元件的中空体元件(200)的方法,该中空体元件(200)用于通常由钢制成的部件(280),所述方法特别用于制造具有大致呈方形或矩形外轮廓(202)的中空体元件。所述方法包括:使用包含多个工作站的接续组合工具(10),先在轮廓中冲压出孔(204),然后在形式为轮廓条(1)或卷形体的轮廓中切制出独立元件,可选地随后形成柱形螺纹(206)。本发明的特征在于,在工作站中执行穿孔加工或者冲孔加工。本发明还涉及中空体元件(200)、部件、接续组合工具(10)和滚压磨机(600,602)。 | ||||||
| 12 | METHOD FOR PRODUCING HOLLOW BODY ELEMENTS, HOLLOW BODY ELEMENT, COMPONENT, FOLLOW-ON COMPOSITE TOOL FOR PRODUCING HOLLOW BODY ELEMENTS | US13372875 | 2012-02-14 | US20120142440A1 | 2012-06-07 | Jiri Babej; Richard Humpert; Michael Vieth |
| The invention relates to a method for producing hollow body elements (200), for example, nut elements which are applied to components which are normally made of steel (280), in particular, for producing hollow body elements having an essentially quadratic or rectangular external profile (202). Said method consists of cutting individual elements of a profile in the form of a profile rod (1) or a winding after holes (204) have previously been stamped in the profile, a threaded cylinder (206) is subsequently, optionally, formed using a follow-on composite tool (10) which consists of several working stations. The invention is characterized in that a penetrating process and a punching process are carried out in the working station. The invention also relates to hollow body elements (200), components, follow-on composite tools (10) and rolling mills (600, 602). | ||||||
| 13 | SPACER NUT MANUFACTURING METHOD | US12673456 | 2009-12-25 | US20110111869A1 | 2011-05-12 | Yasuyuki Kadono |
| To provide a spacer nut manufacturing method which uses no NC lathe, which allows machining using existing press working equipment, which involves a low parts supply cost, and which helps to achieve a high production efficiency at a low production cost.A method of manufacturing a spacer nut arranged between a casing and a board arranged inside the casing and serving to fix the board in position while keeping the board spaced apart from the casing by a predetermined distance dimension, the method comprising: a first step of forming a protrusion of a predetermined length on a metal plate material of a predetermined thickness dimension by press working; a second step of forging the protrusion into a shaft portion in the form of a bottomed cylinder and forming a flange portion at a peripheral edge of a proximal end portion of the shaft portion by press working; a third step of forming an opening at a distal end portion of the shaft portion by press working; a fourth step of performing pressing radially inwards on the proximal end portion of the shaft portion to form a groove portion extending circumferentially around the shaft portion; a fifth step of stamping the flange portion from the metal plate material while forming a serration portion along an outer periphery of the flange portion by press working; and a sixth step of forming a thread groove portion in an inner peripheral surface portion of the shaft portion. | ||||||
| 14 | FASTENER MANUFACTURING APPARATUS AND METHOD | US12113608 | 2008-05-01 | US20080207341A1 | 2008-08-28 | John J. Vrana; Harold A. Ladouceur; Richard P. Ward; Jorge Gonzales |
| An assembly line for continuously manufacturing fasteners from a rod with a groove for receiving a wire for retaining the fasteners in a strip includes a receiver for receiving the rod. A die press is arranged to receive the rod from the receiver and includes a piercing member for piercing an aperture in each fastener and a cutting member for cutting each fastener from the rod. A tapping member provides ribs to an inner wall of the aperture formed in the fastener by the piercing member. An inspector inspects the internal rib formed into the inner wall of the aperture disposed in the fastener verifying exactness of the aperture and the rib. A wire inserter inserts the wire into the groove forming a strip of connected fasteners. The inserter receives the fasteners sequentially from the inspector after verification of the exactness of the aperture disposed in each fastener. | ||||||
| 15 | Method of manufacturing hollow body elements, section for use in the method, hollow body element, component assembly and die | US11267695 | 2005-11-03 | US07387575B2 | 2008-06-17 | Jiri Babej; Michael Vieth; Richard Humpert |
| The invention relates to a method for producing hollow bodies (11, 211, 411) such as nut elements to be fastened to components (13, 213, 413) that usually consist of sheet metal. The invention especially relates to a method for producing hollow bodies with an at least substantially square or rectangular outline by cutting individual bodies from a profile (10, 210, 410) in the form of a profile rod or a reel after respective holes (98, 298, 498) have been punched into the profile, and optionally afterwards producing a threaded cylinder (110, 310, 510). The inventive method is further characterized in that before or after the punching of the profile a passage treatment is carried our in order to produce a cylindrical or annular projection (36, 236, 436), concentric to the punching or the intended punching, on the side (12, 212, 412) of the profile facing the component by flow of material. The projection is optionally shaped to an annular punched section in an additional molding cycle. The invention further relates to various hollow bodies, assembly units and molds for producing said hollow bodies. | ||||||
| 16 | Self-attaching female fasteners, method of forming same and strip of interconnected fasteners | US11545297 | 2006-10-10 | US20070099714A1 | 2007-05-03 | John Vrana; Harold Ladouceur |
| A method of forming pierce and clinch nuts by rolling a section having the desired cross-section, punching equally spaced bores through the central pilot portion and then punching configured openings through the central pilot portion having convex arcuate surfaces and eliminating sharp corners. The strip of interconnected self-attaching fasteners may be installed directly from the strip in a panel, fed in bulk or separate fasteners interconnected by frangible connectors. The resultant self-attaching nut includes a central pilot portion having a bore through the top face, integral flange portions extending from opposed sides and the pilot portion includes convex arcuate faces reducing or eliminating stress cracking and propagation of stress cracks. | ||||||
| 17 | Self-attaching female fastener elements and method of forming same | US10546412 | 2003-11-24 | US20060252560A1 | 2006-11-09 | Harold Ladouceur; John Parker |
| The method of forming self-attaching female fasteners by rolling a continuous metal strip including a central pilot portion having parallel sides and flange portions on opposed sides, severing at least the pilot portion and cold forming the rectangular pilot portion into a cylindrical end portion. Wing-shaped radial portions are formed in the pilot portion which may be severed or remain for anti-rotation features. The strip may remain continuous, wherein the severed pilot portions are spread and the flange portions are thinned or the strip may be severed into discreet fasteners. The female fasteners thus include generally cylindrical pilot portions and rectangular flange portions which may include rolled grooves. | ||||||
| 18 | Self attaching female fasteners and method of forming female fastener elements | US11227899 | 2005-09-15 | US20060009299A1 | 2006-01-12 | Richard Ward; John Vrana |
| A method of forming a female fastener including rolling a body portion strip having a midportion and flange portions on opposed sides of the midportion, piercing spaced openings through the midportion, cutting the strip to length between the openings, cold forming a separate generally cylindrical pilot portion having a length greater than the width of the midportion and a diameter greater than the opening through the midportion, preferably including radial splines, and press fitting the pilot portion through the opening in the midportion. The self-attaching female fastener thus includes a rectangular body portion and a generally cylindrical pilot portion having an end face spaced above a plane of the midportion and may be formed of a harder metal than the body portion. | ||||||
| 19 | Method for the manufacture of hollow body elements, hollow body element and also progressive tool for carrying out the method | US11048219 | 2005-01-31 | US20050166381A1 | 2005-08-04 | Jiri Babej; Richard Humpert; Michael Vieth |
| A method of manufacturing hollow body elements such as nut elements for the attachment to components consisting normally of sheet metal, in particular to the manufacture of hollow body elements with an at least substantially square or rectangular outer periphery by cutting individual elements by length from a section present in the form of a bar section or a coil after prior punching of apertures in the section, optionally with subsequent formation of a thread cylinder, utilizing a progressive tool having a plurality of working stations in which respective processes are carried out is characterized in that in each working station two respective operations are carried out for the section, or for each of a plurality of sections arranged alongside one another, for each stroke of the progressive tool at the same time. A hollow body element and also a progressive tool are also claimed. | ||||||
| 20 | Method of making a fastener strip | US855138 | 1977-11-28 | US4237567A | 1980-12-09 | William L. Grube |
| A strip of fasteners such as pierce nuts is formed from a metal blank with no scrap resulting from the provision of a spacing between adjacent nut bodies, and without the difficulty and expense incident to attaching nut bodies to connecting elements. The body portion of a laterally flanged blank is severed in the transverse direction to separate nut bodies from the blank without fracturing the flanges. The flanges are severed in the longitudinal direction to form severed longitudinally extending flange segments integral at both ends with unsevered flange segments. When the flanges are straightened, the stretching of the severed flange segments resulting from shearing provides a spacing between adjacent nut bodies in the strip. The strip includes spaced apart nut bodies interconnected by continuous lateral flanges. The flanges include unsevered lateral flange segments integral with both sides of each nut body, and severed flange segments integral at both ends with the unsevered flange segments. Elongation of the severed flange segments provides spacing between adjacent nut bodies. | ||||||
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