| 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 | 特别用于车辆零部件的操控装置及其制造方法 | CN201380059710.5 | 2013-11-13 | CN104797393A | 2015-07-22 | 埃格伯特·拉明格; 乌多·特里伊古特 |
| 一种特别用于车辆零部件的操控装置设有可绕旋转轴(20)旋转的旋转操控元件(18),其被构造成在具有分模面(46)的成型模具(48)中制成的塑料注塑制件,以及旋转操控元件(18)可绕旋转轴(20)旋转地安装于上面的支撑单元(12)。支承单元(12)包括第一支承元件(14),其构造成在具有分模面(34)的成型模具(28)中制成的塑料注塑制件。第一支承元件(14)具有在垂直于旋转轴(20)且与其同心的径向平面内延展的支承面(26),并且旋转操控元件(18)包括紧贴在支承面(26)上的接触面(36),同样在垂直于旋转轴(20)并与其同心的径向平面内延展。第一支承元件(14)的支承面(26)或者旋转操控元件(18)的接触面(36)布置于所述相应元件(14、18)的注塑成型模具(28、48)的分模面(34、46)之外,并且这两面(26、36)中的另一面布置于所述相应元件(14、18)的注塑成型模具(28、48)的分模面(34、46)之中。 | ||||||
| 2 | 46)之中。特别用于车辆零部件的操控装置及其制造方法 | CN201380059710.5 | 2013-11-13 | CN104797393B | 2017-03-08 | 埃格伯特·拉明格; 乌多·特里伊古特 |
| 一种特别用于车辆零部件的操控装置设有可绕旋转轴(20)旋转的旋转操控元件(18),其被构造成在具有分模面(46)的成型模具(48)中制成的塑料注塑制件,以及旋转操控元件(18)可绕旋转轴(20)旋转地安装于上面的支撑单元(12)。支承单元(12)包括第一支承元件(14),其构造成在具有分模面(34)的成型模具(28)中制成的塑料注塑制件。第一支承元件(14)具有在垂直于旋转轴(20)且与其同心的径向平面内延展的支承面(26),并且旋转操控元件(18)包括紧贴在支承面(26)上的接触面(36),同样在垂直于旋转轴件(14)的支承面(26)或者旋转操控元件(18)的接触面(36)布置于所述相应元件(14、18)的注塑成型模具(28、48)的分模面(34、46)之外,并且这两面(26、36)中的另一面布置于所述相应元件(14、18)的注塑成型模具(28、48)的分模面(34、(20)并与其同心的径向平面内延展。第一支承元 | ||||||
| 3 | 一种仿岩石纽扣及其制备方法 | CN201510716910.4 | 2015-10-29 | CN105348634A | 2016-02-24 | 林强; 刘棕沐 |
| 本发明提供了一种用于制造仿岩石纽扣的混合料,包括800~1200重量份的塑料原料、5~50重量份的色料、0.03~0.06重量份的相容剂、10~50重量份的纤维填料。本发明采用了包括塑料原料、色料、相容剂和纤维填料的混合颗粒粉体料,通过控制混合料的颗粒粉体状态和成型工艺,最后得到了仿岩石纽扣。本发明制备的人造仿岩石纽扣选用了来源广泛且价格低廉的塑料材料,弥补了岩石材质来源上的不足,还具有如天然岩石纽扣光泽和纹理特点,且染色后稳定性可控,有效的克服了天然岩石品相难于统一,存在个体性差异的问题,并且也不存在质量过重的问题。 | ||||||
| 4 | 钮扣安装用上模 | CN200980163477.9 | 2009-12-25 | CN102791155B | 2015-05-27 | 长谷川建二; 杉山裕之 |
| 本发明提供一种纽扣安装用上模。通过在圆筒状的弹性体(20)的内周面(21)上的轴向中央部位等设置自内周面(21)向半径方向外侧呈凹状的环状的凹部(22),将弹性体(20)划分为作为与凹部(22)的半径方向外侧相对应的部分的薄壁部(23)、及作为在凹部(22)和薄壁部(23)的轴向上侧和下侧保留下来的部分的多个厚壁部(24a、24b)。在对弹性体(20)施加比铆接时载荷小的载荷的穿布料时,弹性体(20)的主要是薄壁部(23)弹性变形而吸收该载荷。接着,在穿布料之后弹性体(20)临时向恢复方向变位而释放掉载荷的一部分之后,在铆接时对弹性体(20)施加比穿布料时更大的载荷,此时,首先,弹性体(20)的薄壁部(23)超过穿布料时的变形量地大幅变形,其次,多个厚壁部在(23)互相接触或者接近之后实质上开始变形而吸收载荷。 | ||||||
| 5 | 钮扣安装用上模 | CN200980163477.9 | 2009-12-25 | CN102791155A | 2012-11-21 | 长谷川建二; 杉山裕之 |
| 本发明提供一种钮扣安装用上模。通过在圆筒状的弹性体(20)的内周面(21)上的轴向中央部位等设置自内周面(21)向半径方向外侧呈凹状的环状的凹部(22),将弹性体(20)划分为作为与凹部(22)的半径方向外侧相对应的部分的薄壁部(23)、及作为在凹部(22)和薄壁部(23)的轴向上侧和下侧保留下来的部分的多个厚壁部(24a、24b)。在对弹性体(20)施加比铆接时载荷小的载荷的穿布料时,弹性体(20)的主要是薄壁部(23)弹性变形而吸收该载荷。接着,在穿布料之后弹性体(20)临时向恢复方向变位而释放掉载荷的一部分之后,在铆接时对弹性体(20)施加比穿布料时更大的载荷,此时,首先,弹性体(20)的薄壁部(23)超过穿布料时的变形量地大幅变形,其次,多个厚壁部在(23)互相接触或者接近之后实质上开始变形而吸收载荷。 | ||||||
| 6 | BEDIENVORRICHTUNG INSBESONDERE FÜR EINE FAHRZEUGKOMPONENTE UND VERFAHREN ZU IHRER HERSTELLUNG | EP13792888.3 | 2013-11-13 | EP2919958B1 | 2016-09-14 | LAMMINGER, Egbert; TREUGUTH, Udo |
| 7 | 特に車両部品用の操作装置、及び、これを製造するための方法 | JP2015542255 | 2013-11-13 | JP2015534916A | 2015-12-07 | エグバート ラミンゲル、; ウド トレウグツ、 |
| 特に車両部品用の操作装置は、回転軸(20)まわりに回転可能であり、また、ダイス分割面(46)を有する成形用ダイス(48)において製造され、プラスチック射出成形部品として形成される、回転作動要素(18)と、回転作動要素(18)が回転軸(20)まわりに回転可能なように取り付けられる、軸受ユニット(12)と、が備えられる。軸受ユニット(12)は、ダイス分割面(34)を有する成形用ダイス(28)において製造され、プラスチック射出成形部品として形成される、第1ベアリング要素(14)を有する。第1ベアリング要素(14)は、回転軸(20)に対して径方向平面に同心円状に延びる座面(26)を有し、回転作動要素(18)の接触面(36)は、この座面(26)に載置され、また、回転軸(20)に対して径方向平面に同心円状に延びている。第1ベアリング要素(14)の座面(26)、または、回転作動要素(18)の接触面(36)のいずれか一方は、これらの関連する要素(14; 18)における成形用ダイス(28; 48)のダイス分割面(34; 46)以外に配置され、また、これら2つの面(26; 36)の他方は、これらの関連する要素(14; 18)に対する成形用ダイス(28; 48)のダイス分割面(34; 46)内に配置される。【選択図】図9 | ||||||
| 8 | Method of manufacturing a battery | JP5752488 | 1988-03-11 | JP2911898B2 | 1999-06-23 | MURATA TOMOYA; NOZUE TOMOHISA; ENDO YUKIRO; NAGURA HIDEAKI |
| PURPOSE:To provide high performance of sealing by pressure fitting a terminal of metal in a through hole provided in a seal made of synthetic resin while ultrasonic vibration is applied thereto, wherein the named terminal of metal shall have an outside dia. a little greater than the bore of this through hole and be provided with a ring-shaped groove at the periphery. CONSTITUTION:With ultrasonic vibration applied, a terminal of metal 2 having an outside dia. a little greater than the bore of a through hole in a seal 1 made of synthetic resin and provided with a ring-shaped groove at the periphery is fitted by pressure into the named through hole in the seal 1. The frequency of this ultrasonic vibration shall be 15-40kHz. With this method, the terminal is fitted by pressure in the through hole at the same time as the synthetic resin around the through hole melts, and the resin intrudes into the groove at the outside surface of the terminal, so that the terminal can be installed in close contact with the through hole. | ||||||
| 9 | Manufacture of button with skin leather | JP14522583 | 1983-08-09 | JPS6036141A | 1985-02-25 | ANDOU TOORU |
| PURPOSE:To elevate the productivity of buttons with skin leather so as to fuse a skin on one side thereof by providing a sheet-shaped circular flange section on the circumference of a core material while being cut at the fused part integrally. CONSTITUTION:A button comprises a core material 10 made of a thermoplastic resin and a skin 20 made of a thermoplastic resin covering the outer side of a hemispherical head 11 of the core material 10 and a mounting leg 12 is formed integral roughly at the center of the undersurface of the head 11 of the core material 10. The leg 12 of the core material 12 is fitted securely into a mounting substrate 31 buried into a sheet back and a skin material 20' is placed on the circumferential surface of the head 11. Thereafter, an ultrasonic welder phone 32 is put over it from above to impart an ultrasonic wave so that the skin material 20' is fused on the upper side of a circular flange section 13 of the core material 10' while the skin material 20' and the circular flange section 13 are cut integrally at the fused section along the circumferential shape of the button. | ||||||
| 10 | METHOD FOR ULTRASONIC WELDING AND ULTRASONIC WELDING FASTENER AND JOINING SYSTEMS | US11756794 | 2007-06-01 | US20080295947A1 | 2008-12-04 | Alain BOURBEAU; Germain Belanger |
| There is provided a method for forming joints between components, comprising selecting the components; selecting an ultrasound emitting source; and exposing a region of contact between the components to ultrasounds emitted by the ultrasound emitting source, to form a melted phase, a structural interface at the region of the joint being formed by engagement of the melted phase with the components. The two components may be of similar or dissimilar materials. | ||||||
| 11 | Snap fastener construction | US176850 | 1988-04-04 | US4825516A | 1989-05-02 | Walter T. Ackermann; Clark A. Denslow |
| First and second complementary snap-fastener components locally and in-situ molded to the same side of a single flexible porous substrate and at relatively short spacing from each other, such that the substrate can be folded between these complementary components to permit their selective mutual engagement and disengagement. One of these formations is a stud component and the other is a socket component, and the sizing of their engageable formations is such that a predetermined clearance characterizes a loose fit when in mutually engaged relation. The looseness of this fit bears a predetermined relation to the thickness and flexible deformability of another flexible member or tie element which is interposed between the snap-fastener elements to secure a given selected location of snap-fastener retention to the tie element. Several embodiments are described. | ||||||
| 12 | Reclosable envelope and method of manufacture | US129556 | 1980-03-12 | US4290547A | 1981-09-22 | John Sullivan; Harold R. Lillibridge |
| An envelope is provided with a first and second button having a depending portion inserted through an opening in a flap and an adjacent body portion, respectively, which is then flattened by the application of ultrasonic energy to vibrate each button and its depending portion against an anvil, rendering each button captive on the envelope. A string is inserted through a slot or hole in the depending portion of one of the buttons and fused to the button as the depending portion is flattened. The string is used to releasably connect the buttons and thus, the envelope flap to the adjacent body portion. | ||||||
| 13 | Process for making plastic articles having decorative surface effects | US3439077D | 1966-06-09 | US3439077A | 1969-04-15 | FISCHLER DANIEL A |
| 14 | Rotary molding device | US41741254 | 1954-03-19 | US2891281A | 1959-06-23 | HEINZELMAN EARL E |
| 15 | Multicolored molded product and method of making the same | US15142737 | 1937-07-01 | US2244565A | 1941-06-03 | LEO NAST |
| 16 | Method of making buttons | US72182134 | 1934-04-21 | US2084427A | 1937-06-22 | BRODERSON NEIL O |
| 17 | Method of producing alpha composite button | US28418528 | 1928-06-09 | US1881038A | 1932-10-04 | WHITEHOUSE JOHN N |
| 18 | Article having a plastic component affixed to a porous substrate and a method for making the same | EP90109288.2 | 1987-07-27 | EP0417395B1 | 1994-03-30 | ACKERMANN, Walter T. |
| 19 | Article having a plastic component affixed to a porous substrate and a method for making the same | EP90109288.2 | 1987-07-27 | EP0417395A1 | 1991-03-20 | ACKERMANN, Walter T. |
An article of manufacture comprises a porous substrate and a functional plastic component locally molded to one side of said substrate, with the plastic material of said component extending integrally through and impregnating the pores of said substrate at the locality of said component. Various embodiments are described for the article as well as for forming the same, obtainable by compressive deformation of a plastic pellet which is brought in contact with the substrate such as to create many point contacts each of which acts as a small area of energy focus for local initiation of progressively melting the pellet and forming the functional component, and methods for making the same. |
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| 20 | PROCEDE ET DISPOSITIF DE FIXATION PAR ULTRASONS D'UN ELEMENT TEL QU'UN BOUTON SUR UN TISSU | EP80902178.0 | 1980-11-21 | EP0041067A1 | 1981-12-09 | PAPAZIAN, Richard |
| Procede et dispositif pour la fixation de boutons sur un materiau textile. Le bouton, en matiere plastique, comprend une premiere tete (1) solidaire d'une tige 82), sur laquelle on applique un outil (6) soumis a des oscillations ultrasoniques. La tige (2) penetre dans le tissu (9) retenu par un support mobile (11), et son extremite (10) s'insere dans un alesage conique (14) d'une seconde tete (3), et, en fondant, remplit l'alesage. Application a la fixation de boutons sur un tissu. | ||||||
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