| 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 | 将紧固元件附接到工件的方法、冲模母模及与垫圈的组合 | CN201410447796.5 | 2014-09-04 | CN104514796A | 2015-04-15 | 奥利弗·迪尔; 理查德·汉弗伯特; 安德里亚斯·朗巴克 |
| 一种用于将紧固元件附接到工件的方法,借助于垫圈及冲模母模。紧固元件具有较大直径的法兰和从法兰延伸出来的较小直径的铆钉部,以及在法兰的邻近铆钉部的一侧的工件接触表面。冲模母模配置成用于接收垫圈并且具有中心柱,中心柱的端面配置成与垫圈的邻近工件的一侧至少平齐。非预穿刺工件被中心柱的端面和铆钉部的自由端刺穿,随后紧固元件的铆钉部变形形成铆钉卷边。此外,冲模母模以及冲模母模与垫圈的组合也是要求保护的。 | ||||||
| 2 | 制造具有环形横截面的成型件的方法及根据该方法制造的成型件 | CN200980112935.6 | 2009-04-09 | CN101998900A | 2011-03-30 | 派克-克里斯蒂安·维特; 京特·西贝尔 |
| 本发明涉及一种制造具有旋转对称的或者至少在局部呈环形的横截面的诸如螺母、套筒、管插头、管接头等成型件(1)的方法,其中,经塑化加工的包含纤维(F)的聚合物材料(PM)通过成型模具的喷射口(O1)喷入到所述成型模具的空腔(K)中,并在该聚合物材料(PM)凝固之后,将成型件(1)从模具中取出。在工艺上能够简单地实施,并且优选使聚合物材料(PM)在凝固时的收缩能够得以优化的同时,能够制造具有提高强度的成型件(1),本发明建议,通过至少两个喷射口(O1,O2,O3)来实施向空腔(K)中的喷射,使得纤维(F)主要沿着与成型件(1)的轴向拉伸(Z)和扭转(T)相应的主应力方向定向。 | ||||||
| 3 | 用熔化的粘合剂涂敷紧固件的粘合面的方法 | CN97199285.1 | 1997-10-07 | CN1078527C | 2002-01-30 | M·布雷蒙特 |
| 本发明提出一种用熔化的粘合剂涂敷构件或支撑件尤其是紧固件(1)的粘方面的方法。其中,混合好的粘合剂按固态形式涂敷到粘合面上并在施加轻微的压力时受到足以熔化粘合剂的热的作用。为此,为了简化操作。在将粘合剂涂敷到粘合面上之前将其按粉末的形式根据粘合面的形状压成薄板(11),这在粘合剂的涂救时是有利的。 | ||||||
| 4 | 用熔化的粘合剂涂敷紧固件的粘合面的方法 | CN97199285.1 | 1997-10-07 | CN1235574A | 1999-11-17 | M·布雷蒙特 |
| 本发明提出一种用熔化的粘合剂涂敷构件或支撑件尤其是紧固件(1)的粘方面的方法。其中,混合好的粘合剂按固态形式涂敷到粘合面上并在施加轻微的压力时受到足以熔化粘合剂的热的作用。为此,为了简化操作,在将粘合剂涂敷到粘合面上之前将其按粉末的形式根据粘合面的形状压成薄板(11),这在粘合剂的涂敷时是有利的。 | ||||||
| 5 | 用于制备塑料复合成型体的方法 | CN201380030875.X | 2013-06-11 | CN104640681B | 2017-11-17 | 奥利弗·弗兰森; 克莱门斯·特伦姆 |
| 本发明涉及一种用于生产塑料复合成型体的方法,所述方法生产由低熔点热塑性塑料和光固化聚有机硅氧烷组合物构成的硬‑软成型体,本发明还涉及根据所述方法生产的制品。 | ||||||
| 6 | 具有定制的外部表面的部件和其制造方法 | CN201710173087.6 | 2017-03-22 | CN107263773A | 2017-10-20 | T·J·皮克特; D·M·特鲁什 |
| 提供一种具有定制的外部表面的部件和利用成型工具制造该部件的方法和工具。该部件可以经由塑性成型工艺利用成型工具形成,使得其外部表面上形成表面纹理。该成型工具具有限定模腔的至少一个工具表面。该工具表面具有耦接至其的纹理层,使得该纹理层直接接触供应至模腔的可模制材料。该纹理层上面形成表面纹理,导致在成型期间存在于纹理层上的表面纹理转移至该部件的外部表面并且形成在其上。该纹理层相对于该至少一个工具表面可以是可更换的或可替换的,使得单个工具可以形成具有其外部表面上形成不同表面纹理的部件。 | ||||||
| 7 | 用于安置压入元件的装置和方法 | CN201480030947.5 | 2014-06-24 | CN105246670A | 2016-01-13 | O·埃尔奥卢; F·菲舍尔 |
| 本发明涉及一种用于在预定的位置上将压入元件(3)安置到工件(1)中的装置(7)和方法。所述装置具有:基体(8);安装在基体(8)上的固定单元(12),所述固定单元构成为用于固定工件(1);以及加工单元(10),其安装在基体(8)上并且具有:钻孔单元(16),其构成为用于在由固定单元(12)固定的工件(1)中加工孔(2);以及压入单元(18),其构成为用于将压入元件(3)压入到孔中。所述方法具有步骤:a)固定工件(1);b)将孔(2)加工到工件(1)中;c)在孔上方定位压入元件(3);以及d)将压入元件(3)压入到孔中,为了执行所述方法,使用一个唯一的装置,其将用于实现方法步骤a)至d)所需的功能集于一体。 | ||||||
| 8 | 制造具有环形横截面的成型件的方法及根据该方法制造的成型件 | CN200980112935.6 | 2009-04-09 | CN101998900B | 2015-06-03 | 派克-克里斯蒂安·维特; 京特·西贝尔 |
| 本发明涉及一种制造具有旋转对称的或者至少在局部呈环形的横截面的诸如螺母、套筒、管插头、管接头等成型件(1)的方法,其中,经塑化加工的包含纤维(F)的聚合物材料(PM)通过成型模具的喷射口(O1)喷入到所述成型模具的空腔(K)中,并在该聚合物材料(PM)凝固之后,将成型件(1)从模具中取出。在工艺上能够简单地实施,并且优选使聚合物材料(PM)在凝固时的收缩能够得以优化的同时,能够制造具有提高强度的成型件(1),本发明建议,通过至少两个喷射口(O1,O2,O3)来实施向空腔(K)中的喷射,使得纤维(F)主要沿着与成型件(1)的轴向拉伸(Z)和扭转(T)相应的主应力方向定向。 | ||||||
| 9 | 用于制备塑料复合成型体的方法 | CN201380030875.X | 2013-06-11 | CN104640681A | 2015-05-20 | 奥利弗·弗兰森; 克莱门斯·特伦姆 |
| 本发明涉及一种用于生产塑料复合成型体的方法,所述方法生产由低熔点热塑性塑料和光固化聚有机硅氧烷组合物构成的硬-软成型体,本发明还涉及根据所述方法生产的制品。 | ||||||
| 10 | 용융성 접착제로 고정 요소의 접착면을 도포하는 방법 | KR1019997003765 | 1997-10-07 | KR1020000052901A | 2000-08-25 | 브레몽미셸 |
| PURPOSE: Provided is a method for coating adhesive surfaces of building or supporting elements, especially fastening elements (1), with hot-melt adhesives, thereby reducing the coating cost and increasing the amount of work. CONSTITUTION: A ready mixed adhesive is deposited in solid form on the adhesive surface and subjected to sufficient heat to make the adhesive melt after a slight pressure has been exerted thereon. In order to facilitate handling while adhesive is deposited it is useful to compress the adhesive into a thin slab (11) before depositing it on the adhesive surface in a powdered form corresponding to the shape of the adhesive surface. | ||||||
| 11 | Method and System for Producing a Threaded Bolt | US15143823 | 2016-05-02 | US20170312948A1 | 2017-11-02 | Oumarou Sodore; Peter Bishop |
| The invention relates to a method for producing a threaded bolt. A blank is introduced into a threaded-bolt negative mold. The blank has a bolt-shaped portion. Fibers which are aligned in the longitudinal direction of the bolt-shaped portion are embedded in a plastics material in the blank. Pressure is exerted on the blank in order to deform the blank in the negative mold such that a threaded structure is formed on a circumferential face of the bolt-shaped portion. The invention moreover relates to a threaded bolt which is manufacturable by this method, and to a system which is conceived for carrying out the method. Lightweight and hard-wearing threaded bolts may be manufactured by the method according to the invention. | ||||||
| 12 | Method for fabricating composite fasteners | US13773042 | 2013-02-21 | US09623612B2 | 2017-04-18 | Aaron William Bartel; Nathan A. Muntz |
| Composite fasteners have a high fraction of discontinuous, randomly oriented reinforcing fibers. A charge of thermoplastic fiber flakes are heated to melting temperature within a reservoir, flowed into multiple mold cavities and compression molded. The molded fasteners have high strength, exhibit quasi-isotropic properties and may be produced in high volume. | ||||||
| 13 | Fiber reinforced plastic bolt and method for producing the same | US13955317 | 2013-07-31 | US09316244B2 | 2016-04-19 | Hoon-Heui Jeong; Yong-Min Park; Hyun-Seok Kim |
| A fiber reinforced plastic bolt (FRP) and a method for producing the same are disclosed. The FRP bolt is useful in the industrial areas which require a bolt having electric-insulation, anti-corrosive, thermal-insulation, and non-magnetic properties. The method for producing the FRP bolt includes the steps of: winding a prepreg around a surface of an internal body, wherein the internal body includes a first reinforcing fiber which is unidirectionally aligned along the axis of the bolt, and a synthetic resin which is impregnated into the first reinforcing fiber, and the prepreg includes a second reinforcing fiber and a thermosetting resin which is impregnated into the second reinforcing fiber; forming a fiber reinforced plastic round bar by heat-hardening the prepreg; and forming a screw thread on the surface of the fiber reinforced plastic round bar. | ||||||
| 14 | Hybrid fastener and method of making the same | US13773120 | 2013-02-21 | US09238339B2 | 2016-01-19 | Adriana Willempje Blom |
| A hybrid fastener comprises a composite body having a tip, and a metal sleeve surrounding and locked to the tip. | ||||||
| 15 | Process For The Preparation of Plastic Composite Molded Bodies | US14406233 | 2013-06-11 | US20150298375A1 | 2015-10-22 | Oliver Franssen; Clemens Trumm |
| Process for the preparation of plastic composite molded bodies in which hard-soft molded bodies made of low-melting thermoplastics and light curable polyorganosiloxane compositions are prepared as well as products produced by this process. | ||||||
| 16 | Hybrid Fastener and Method of Making the Same | US13773120 | 2013-02-21 | US20140234052A1 | 2014-08-21 | Adriana Willempje Blom |
| A hybrid fastener comprises a composite body having a tip, and a metal sleeve surrounding and locked to the tip. | ||||||
| 17 | Method and Apparatus for Fabricating Composite Fasteners | US13773042 | 2013-02-21 | US20140232042A1 | 2014-08-21 | Aaron William Bartel; Nathan A. Muntz |
| Composite fasteners have a high fraction of discontinuous, randomly oriented reinforcing fibers. A charge of thermoplastic fiber flakes are heated to melting temperature within a reservoir, flowed into multiple mold cavities and compression molded. The molded fasteners have high strength, exhibit quasi-isotropic properties and may be produced in high volume. | ||||||
| 18 | METHOD FOR THE MANUFACTURE OF ROD-SHAPED COMPONENTS | US11854569 | 2007-09-13 | US20080070036A1 | 2008-03-20 | Dieter Eisenhardt; Stephanie Hoffmann |
| To provide a method for the manufacture of rod-shaped components with one or more functional elements from a thermoplastic resin material, the length of the rod-shaped components being optionally variable, it is proposed that the method comprise the steps of producing in an extrusion process a blank having dimensions corresponding substantially to the rod-shaped component, and reshaping a portion of the blank to create a prescribed cross-sectional change by means of agglomeration of material in this portion, thereby to form the component with a functional element, the portion being heated prior to or during the reshaping to a reshaping temperature lying between the glass transition point and the melting point or softening point of the resin material. | ||||||
| 19 | Device for placing and sticking holding elements to support surfaces | US10169714 | 2002-07-08 | US20030010441A1 | 2003-01-16 | Michel Bremont; Yannick Leroux; Olivier Schuller |
| The present invention is used for placing and sticking holding elements to support surfaces. The holding elements are provided with connecting surfaces which are coated with a dry hot-melt-type adhesive on the bare side thereof. Said adhesive can be reactivated by means of heat treatment. The inventive device consists of a housing (1) having a receiving component (2) that is displaceably guided therein and is used for the holding element (3) as well as means for quickly heating the hot-melt-type adhesive, lowering the receiving component (2) and pressing the adherent (25) after the adhesive has been melt on. The invention is characterized in that heating is carried out by means of hot air (H) which is supplied passing the housing (1) and in that the receiving component (2) is surrounded by a closed wall (7) that extends from the hot air discharge location in the housing (1) to the holding element (3). The hot air (H) can thus be conveyed to the adhering hot-melt-type adhesive before or while the holding element (3) rests on the support surface (25) and holding elements (3) having a differently embodied adherent (25) consisting of either metal or synthetic material can thus be stuck to the support surface (32). | ||||||
| 20 | Gluable fixing element for holding structural or functional components on carrier parts | US380518 | 1995-01-30 | US5756185A | 1998-05-26 | Hans-Jurgen Lesser |
| A gluable fixing element for holding structural or functional components to essentially flat surfaces of carrier parts. It consists of a bonding portion for producing an adhesive bond with the surface of the carrier part and at least one further holding portion for producing a positive or non-positive connection with the component. The bonding portion has a bonding surface which is provided with a curable and/or crosslinkable, reactive hot-melt adhesive that when dry is wear-resistant and non-adhesive at temperatures up to 80.degree. C. but that can be reactivated within a very short time when heated by thermal or other energy to a temperature sufficient to melt the adhesive to produce a durable adhesive bond between the element and the carrier parts. | ||||||
QQ群二维码
意见反馈
意见反馈