| 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 | 多滴料制瓶机 | CN201610070839.1 | 2016-01-31 | CN105502891A | 2016-04-20 | 陈刚; 刘在峰; 李德超 |
| 本发明属于制瓶机领域,具体涉及一种多滴料制瓶机,包括机架和安装在机架上的接料机构、成型滴料、初模机构、翻转机构和成模机构;接料机构上具有一行落料口;每个落料口的下方设置一成型滴料;初模机构包括数个初模夹具,每个初模夹具对应设置在一成型滴料的下方;翻转机构位于初模机构和成模机构之间;成模机构包括数个成模夹具,成模夹具的数量与初模夹具的数量相同。本发明将原来列式成型滴料改为一行,避免产品在成型翻转过程中由于翻转力矩的不同造成相关成型滴料变形,进而减少产品质量缺陷,提高产品成品率,同时可以根据生产实际需要增加成型滴料的数量,从而大幅提升生产效率。 | ||||||
| 2 | 有色玻璃容器及其制备方法 | CN201380056923.2 | 2013-10-03 | CN104755438A | 2015-07-01 | E.奥尔德维; T.K.豪斯; D.贝克; S.巴顿; C.A.克利克 |
| 潜在的着色剂、材料组合物、苏打-石灰-二氧化硅玻璃组合物以及制备颜色-可渗透的玻璃容器的相关的方法。可将所述潜在的着色剂材料组合物引入到氧化还原值在-40至+20范围的多种基础玻璃组合物中,以生产颜色-可渗透的玻璃组合物和颜色-可渗透的玻璃容器。引入到基础玻璃组合物中的所述潜在的着色剂材料组合物包括氧化亚铜(Cu2O)、氧化亚锡(SnO)、氧化铋(Bi2O3)和碳(C)的混合物。形成后,可将所述颜色-可渗透的玻璃容器热处理,以使其中的红色或黑色渗透。 | ||||||
| 3 | Split Loading Funnel for Charging a Molten Glass Gob into a Blank Mold | US15010226 | 2016-01-29 | US20160145136A1 | 2016-05-26 | Robin L. Flynn |
| The disclosure includes a process and an apparatus for delivering a gob of molten glass into a blank mold. The apparatus includes a loading funnel holder that defines at least one opening, and a split loading funnel rotatably carried by the funnel holder. The split loading funnel includes two or more individual funnel segments that together provide an outlet of the funnel having an exit plane, each of the individual funnel segments having a lower portion that includes a concave interior guide surface. The two or more individual funnel segments are coupled together so that the interior guide surfaces of the individual funnel segments cooperate to define a guide passage extending along a longitudinal axis and terminating at the outlet. | ||||||
| 4 | Split loading funnel for charging a molten glass gob into a blank mold | US14134777 | 2013-12-19 | US09272938B2 | 2016-03-01 | Robin L Flynn |
| A split loading funnel includes two or more individual funnel segments, each of which includes an interior guide surface. The two or more individual funnel segments are arranged relative to one another so that interior guide surfaces of the individual funnel segments cooperate to define a guide passage having a longitudinal axis. An apparatus that includes a split loading funnel and a process for delivering a gob of molten glass from a gob delivery system into a blank mold using a split loading funnel are also disclosed. | ||||||
| 5 | Color-Strikable Glass Containers | US15639452 | 2017-06-30 | US20170297950A1 | 2017-10-19 | Edward Ordway; Terence K. Howse; Daniel Baker; Stephen Barton; Carol A. Click |
| Latent colorant material compositions, soda-lime-silica glass compositions, and related methods of manufacturing color-strikable glass containers. The latent colorant material compositions may be introduced into a plurality of base glass compositions having redox numbers in the range of −40 to +20 to produce color-strikable glass compositions and color-strikable glass containers. The latent colorant material compositions introduced into the base glass compositions include a mixture of cuprous oxide (Cu2O), stannous oxide (SnO), bismuth oxide (Bi2O3), and carbon (C). After formation, the color-strikable glass containers may be heat-treated to strike red or black therein. | ||||||
| 6 | Color-strikable glass containers | US13666629 | 2012-11-01 | US09725354B2 | 2017-08-08 | Edward Ordway; Terence K Howse; Daniel Baker; Stephen Barton; Carol A. Click |
| Latent colorant material compositions, soda-lime-silica glass compositions, and related methods of manufacturing color-strikable glass containers. The latent colorant material compositions may be introduced into a plurality of base glass compositions having redox numbers in the range of −40 to +20 to produce color-strikable glass compositions and color-strikable glass containers. The latent colorant material compositions introduced into the base glass compositions include a mixture of cuprous oxide (Cu2O), stannous oxide (SnO), bismuth oxide (Bi2O3), and carbon (C). After formation, the color-strikable glass containers may be heat-treated to strike red or black therein. | ||||||
| 7 | Split Loading Funnel for Charging a Molten Glass Gob into a Blank Mold | US14134777 | 2013-12-19 | US20150175465A1 | 2015-06-25 | Robin L. Flynn |
| A split loading funnel includes two or more individual funnel segments, each of which includes an interior guide surface. The two or more individual funnel segments are arranged relative to one another so that interior guide surfaces of the individual funnel segments cooperate to define a guide passage having a longitudinal axis. An apparatus that includes a split loading funnel and a process for delivering a gob of molten glass from a gob delivery system into a blank mold using a split loading funnel are also disclosed. | ||||||
| 8 | DEVICE FOR MANUFACTURING HOLLOW GLASS ARTICLES | US15400243 | 2017-01-06 | US20170197860A1 | 2017-07-13 | BERNARD VORSPEL |
| A device for manufacturing hollow glass article consists of a plurality of modular stations that, among other things, comprise blank molds and finish molds, wherein a housing (6) is provided and can be displaced along a blank mold side (3) in order to carry out at least control and servicing functions, and wherein said housing is formed by a key-like structure that is open in the direction of the blank mold side (3) and serves as a carrier for at least one manipulation element (7) consisting of multiple sections. On its free end, this manipulation element carries a tool or a device that is ready for use after it has reached the respective station. The shielding effect of the housing (6) reliably protects an operator side against accidents due to inadvertent interventions in machine motion sequences. | ||||||
| 9 | Split loading funnel for charging a molten glass gob into a blank mold | US15010226 | 2016-01-29 | US09527761B2 | 2016-12-27 | Robin L. Flynn |
| The disclosure includes a process and an apparatus for delivering a gob of molten glass into a blank mold. The apparatus includes a loading funnel holder that defines at least one opening, and a split loading funnel rotatably carried by the funnel holder. The split loading funnel includes two or more individual funnel segments that together provide an outlet of the funnel having an exit plane, each of the individual funnel segments having a lower portion that includes a concave interior guide surface. The two or more individual funnel segments are coupled together so that the interior guide surfaces of the individual funnel segments cooperate to define a guide passage extending along a longitudinal axis and terminating at the outlet. | ||||||
| 10 | Color-Strikable Glass Containers | US13666629 | 2012-11-01 | US20140120278A1 | 2014-05-01 | Edward Ordway; Terence K. Howse; Daniel Baker; Stephen Barton; Carol A. Click |
| Latent colorant material compositions, soda-lime-silica glass compositions, and related methods of manufacturing color-strikable glass containers. The latent colorant material compositions may be introduced into a plurality of base glass compositions having redox numbers in the range of −40 to +20 to produce color-strikable glass compositions and color-strikable glass containers. The latent colorant material compositions introduced into the base glass compositions include a mixture of cuprous oxide (Cu2O), stannous oxide (SnO), bismuth oxide (Bi2O3), and carbon (C). After formation, the color-strikable glass containers may be heat-treated to strike red or black therein. | ||||||
| 11 | 溶融ガラスゴブをブランクモールド中に投入する割り型装入ファンネル | JP2016541650 | 2014-12-15 | JP2017500269A | 2017-01-05 | ロビン エル フリン |
| 割り型装入ファンネル(10,110,210)が2つ又は3つ以上の個別のファンネルセグメント(12,14,112,114,212,214)を有し、これらファンネルセグメントの各々は、内部案内面(28,30,128,130)を有する。2つ又は3つ以上の個別のファンネルセグメントは、個別のファンネルセグメントの内部案内面が互いに協働して長手方向軸線(L)を備えた案内通路(38,138,238)を構成するよう互いに対して配置されている。また、割り型装入ファンネルを有する装置及び割り型装入ファンネルを用いて溶融ガラスのゴブ(G)をゴブ送り出しシステム(64)からブランクモールド(66)中に送り込む方法が開示される。 | ||||||
| 12 | COLORED GLASS CONTAINERS AND METHODS OF PRODUCING THEM | EP13777209.1 | 2013-10-03 | EP2914557A1 | 2015-09-09 | ORDWAY, Edward; HOWSE, Terence, K.; BAKER, Daniel; BARTON, Stephen; CLICK, Carol, A. |
| Latent colorant material compositions, soda-lime-silica glass compositions, and related methods of manufacturing color-strikable glass containers. The latent colorant material compositions may be introduced into a plurality of base glass compositions having redox numbers in the range of −40 to +20 to produce color-strikable glass compositions and color-strikable glass containers. The latent colorant material compositions introduced into the base glass compositions include a mixture of cuprous oxide (Cu2O), stannous oxide (SnO), bismuth oxide (Bi2O3), and carbon (C). After formation, the color-strikable glass containers may be heat-treated to strike red or black therein. | ||||||
| 13 | VORRICHTUNG ZUM HERSTELLEN VON HOHLGLASARTIKELN | EP16002665.4 | 2016-12-15 | EP3190094B1 | 2018-12-05 | VORSPEL, Bernard |
| 14 | VORRICHTUNG ZUM HERSTELLEN VON HOHLGLASARTIKELN | EP16002665.4 | 2016-12-15 | EP3190094A1 | 2017-07-12 | VORSPEL, Bernard |
Eine Vorrichtung zur Herstellung von Hohlglasartikeln besteht aus einer Vielzahl von modular ausgebildeten, u. a. Vor- und Fertigformen umfassenden Stationen, wobei zur Ausübung zumindest von Kontroll- und Wartungsfunktionen ein entlang einer Vorformenseite (3) verfahrbares Gehäuse (6) vorgesehen ist, welches durch eine in Richtung auf eine Vorformenseite (3) hin offene, schüsselartige Gestalt gebildet ist und als Träger zumindest eines mehrgliedrigen Manipulationsorganes (7) dient. Dieses trägt an seinem freien Ende ein Werkzeug oder ein Gerät, welches nach Anfahren der jeweiligen Station zum Einsatz bringbar ist. Infolge der Abschirmwirkung des Gehäuses (6) ist ein zuverlässiger Schutz einer Bedienerseite vor Unfällen infolge unbeabsichtigter Eingriffe in maschinelle Bewegungsabläufe dargestellt.
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| 15 | 블랭크 몰드에 용융 유리 고브(GOB)를 채우기 위한 분할 로딩 깔때기 | KR1020167017906 | 2014-12-15 | KR1020160098301A | 2016-08-18 | 플린,로빈,엘. |
| 분할로딩깔때기(10, 110, 210)는각각내부가이드표면(28, 30, 128, 130)을포함하는 2개이상의개별깔때기세그먼트(12, 14, 112, 114, 212, 214)를포함한다. 상기 2개이상의개별깔때기세그먼트는상기개별깔때기세그먼트의내부가이드표면이길이방향축을갖는가이드통로를정의하기위해서로작용할수 있도록서로에대하여배열된다. 또한분할로딩깔때기를포함하는장치, 및분할로딩깔때기를사용하여용융유리의고브(G)를고브전달시스템에서부터블랭크몰드(66)로전달하는방법이공시되어있다. | ||||||
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