| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 61 | Sheet metal ribbon coating apparatus | US857678 | 1977-12-05 | US4167150A | 1979-09-11 | Bernard H. Davis; Thomas M. Welsh |
| Coating apparatus wherein a pretreated sheet metal ribbon passes from a supply coil successively through entry rolls, coating rolls, a curing oven, cooling apparatus, and tension rolls to a recoiler. The ribbon extends through the coating rolls and the curing oven as a long-span catenary. No looping facility is required. The apparatus incorporates novel leading end gripper means and trailing end gripper means for establishing and terminating the catenary in a manner which minimizes the unusable length of ribbon, that is, the uncoated leading end and uncoated trailing end of the processed ribbon. A method of initiating, maintaining, and terminating the catenary is disclosed. | ||||||
| 62 | The method of continuous production product panel, detection systems and detection methods | JP2011186708 | 2011-08-30 | JP5022507B1 | 2012-09-12 | 隼 三島; 宜之 田村; 友和 由良; 和也 秦; 一平 長廣 |
| 【課題】 貼合精度が高い製品パネルを連続的に製造することができる製品パネルの連続製造方法を提供する。
【解決手段】 本方法は、シート状偏光フィルムのフィルム前端部を矩形パネルとの貼合位置に近づけてフィルム前端部を検出し、検出されたフィルム前端部の位置の情報に基づいてシート状偏光フィルムと矩形パネルとを位置合せし、シート状偏光フィルムと矩形パネルとを貼り合せることを含む。 フィルム前端部を検出するために、シート状偏光フィルムの送り方向の上流側から、フィルムの送り方向に対して鋭角をなす光軸を持つ光をフィルム前端部に向かって照射し、光が照射された領域を撮像して画像を取得し、フィルム前端部の像と該フィルム前端部以外の部分の像との輝度の差に基づいてフィルム前端部を識別する。 【選択図】 図1 |
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| 63 | Bag-making machine | JP2011075333 | 2011-03-30 | JP4902796B1 | 2012-03-21 | 幹夫 戸谷 |
| 【課題】横ヒータ6、横冷却部材7などの複数の可動ユニットを有し、プラスチックフィルム1によってプラスチック袋を製造する製袋機において、製袋機を運転する前、各可動ユニットを移動させ、その位置を調整するとき、その作業が容易であるようにする。
【解決手段】製袋機に複数の駆動機構が組み合わされ、各駆動機構が各可動ユニットに設けられる。 駆動機構は各可動ユニットを移動させるためのものである。 さらに、製袋機に複数の操作スイッチが組み合わされ、各操作スイッチが各可動ユニットに対応し、各操作スイッチによって可動ユニットの駆動機構が駆動され、対応する可動ユニットが移動し、その位置が調整される。 【選択図】図1 |
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| 64 | Laminate tape and the laminating tape, as well as the laminate tape of sticking method and apparatus to the laminating tape | JP16054997 | 1997-06-03 | JP3405127B2 | 2003-05-12 | 英毅 及川 |
| A laminating tape has an adhesive layer for adhering to a recording surface of a to-be-laminated tape, and is formed to have a substantially identical width to a width of the to-be-laminated tape. The laminating tape has a preliminary laminating portion formed at a leading end thereof, for being preliminarily laminated to the to-be-laminated tape, and a non-adhesive portion having a predetermined length and extending continuously from an trailing end of the preliminary laminating portion, for permitting lateral motion of the laminating tape with respect to the to-be-laminated tape. In another aspect of the invention, a to-be-laminated tape is provided which has a preliminary to-be-laminated portion formed at a leading end thereof for being preliminarily laminated to a leading end of the laminating tape, and an adhesion-refusing portion having a predetermined length and extending continuously from a trailing end of the preliminary to-be-laminated portion, for permitting lateral motion of the to-be-laminated tape with respect to the laminating tape. A method and device for initially laminating the laminating tape to the to-be-laminated tape are also provided. |
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| 65 | Laminating apparatus | JP2001055681 | 2001-02-28 | JP2002254515A | 2002-09-11 | SHIMIZU YASUHIRO; TAKEUCHI MASAKI; MATSUI YASUAKI; KOROYASU MASAKI; OKUNO AKIRA; TSUKUYA KATSUSHIGE; UEDA DAIMON |
| PROBLEM TO BE SOLVED: To provide a laminating apparatus capable of continuing a work without minding of a residual amount of a laminating film raw material by an operator. SOLUTION: The laminating apparatus forms a laminate by adhering a transparent or translucent laminating film A on a surface of a printed mater such as a poster, an advertisement or the like, output media M or the like of a computer. The apparatus comprises a size sensor 14 having an encoder 13 for detecting a length of the laminating film A drawn from a raw fabric 4 of the film A, a means 16 for inputting the length of the fabric 4 of the set film A, a subtracting means for subtracting the length detected by the sensor 14 input from the length of the fabric 4 of the film A, a display unit 17 for displaying the value obtained by subtraction, and an alarm means for generating an alarm when the value obtained by subtraction arrives at a predetermined value or less. | ||||||
| 66 | Non-aging film and products that are produced from the method and laminated goods to produce a laminate of non-aging non-woven web | JP2000573910 | 1999-09-17 | JP2002526297A | 2002-08-20 | リン サン ウォーン; チャールズ ハーマン エリントン; ビリー レイ ジュニア ジョーンズ; ダニエル ケニス スキファー; ウィリアム ベラ ハフナー; ケヴィン ジョージ ヘツラー; チャールズ ジョン モレル; サンディー チ チン ユィン |
| (57)【要約】 本発明は、フィルムと不織ウェブとの積層品を製造するインラインの連続的方法に関し、その場合にフィルムと不織ウェブとは同時に製造されるので、直ちに積層品に形成される時、それらは発生期又は非エージングである。 本発明の方法においては、不織ウェブが形成される時にフィルムもインラインで形成され、新たに形成されたフィルムと不織ウェブとは直ちに積層品に形成される。 ここで、積層品は、「非エージング」フィルム及び「非エージング」不織ウェブから形成される。 本明細書で用いられる「非エージング」の用語は、「できたばかり」と同意語であって、フィルムと不織ウェブとが直ちに積層品に形成され、例えば、フィルム及び不織ウェブのいずれも積層品に形成される前に予め巻き取られることはない。 | ||||||
| 67 | Vacuum web drive unit of the waveform forming machine double buccal | JP50352098 | 1997-06-25 | JPH11511718A | 1999-10-12 | アール マルシュケ カール; ディー ウエルチ ハロルド; エー ガーボイル ポール; エー ツアードット マシュー |
| (57)【要約】 ウエブ接着剤を硬化させかつ波形板紙(11)を乾燥させるダブルバッカ(10)は、ウエブを、被動保持ベルトに使用を必要としない下部加熱ユニットと密接乾燥接触状態に保持するウエブ保持装置を利用する。 ウエブは、1つの全幅ベルト(92)からなる下流側真空コンベヤ部(23)によりダブルバッカ(10)を介して、真空が印加される上面に引っ張られる。 真空駆動ベルト(92)は、ベルトを真空プレナム支持面(97)に支持する、下側部に設けられた低摩擦ストリップ(2,7)と、摩擦および所要の駆動力の双方を少なくする、ベルトの他方の側に設けられた真空分配チャンネル(105)の独特のパターンとを有している。 | ||||||
| 68 | Method and apparatus for manufacturing resin-coated metal plate | JP7090396 | 1996-03-04 | JPH10309775A | 1998-11-24 | OKAMURA TAKAAKI; OHASHI YASUO; NAKAMURA KOJI; TANAKA ATSUO |
| PROBLEM TO BE SOLVED: To economically manufacture a resin-coated metal plate without waste of metal plate and resin by continuously rewinding from a metal plate rewinding reel after confirming a thickness of a solidified resin film, press bonding the film to a heated surface of the plate, and continuously laminating it. SOLUTION: A solidified resin film 13 extruded from a T-die 13 is not press bonded to a solidified resin film metal plate 10 until the thickness of the film 13 is stabilized. After it is confirmed that the thickness of the film 13 is stabilized to an object thickness, the film 12 is laminated on a surface of the plate 10 heated by laminating rolls 25, 31. Therefore, occurrence of a fault product due to lamination of the film 12 having no object thickness can be prevented, and yield of a resin-coated plate 15 can be enhanced. And, since the film 13 extruded from the T-die 13 is not yet covered with the plate, it can be recycled. COPYRIGHT: (C)1998,JPO | ||||||
| 69 | Improved holding and driving of web for corrugator double surface machine | JP18681196 | 1996-06-26 | JPH09117976A | 1997-05-06 | KAARU AARU MARUSHIYUKE; HARORUDO DEII BERUCHI; JIEEMUSU EE KAMINGUSU |
| PROBLEM TO BE SOLVED: To prevent the removal of moisture from being suppressed by suspending a series of flexible parallel strips extending on a web in a web moving direction above the upstream area of the web and a heating section by a common upstream end and adjusting the length placed on the moving web. SOLUTION: A series of flexible parallel metal strips 17 are suspended above a heating part in such a state the slackened or suspended parts of the strips 17 are placed on a double-side web 11. The upstream ends 18 of the strips 17 are attached to a common upstream support 20 and positioned on the upstream side of the most upstream heating unit 15 just above the single surface straight webs 12, 13 entering the machine. In this method, the suspended linear parts bent downwardly by the effect of gravity are extremely short and the web 12 is in a non-contact state in the heating section. A strip support is arranged so as to be capable of adjusting vertical motion and raised to change the length of the strips 17 placed on the moving double-side web 11 in a contact state. | ||||||
| 70 | Method and apparatus for thermally contact-bonded lamination | JP6172286 | 1986-03-18 | JPS62216730A | 1987-09-24 | HASHIDA KENJI; YAMAMOTO TAKESHI; FUKUMOTO TATSUYA; DEGUCHI TETSUSHI; HIRATA SHIGEYUKI; UEHARA OSAMU; AKEHI KAZUHIKO |
| PURPOSE:To prevent the occurrence of creases and whitening on a laminated film and to prepare the laminated film having uniform and sufficient strength by taking out the laminated film having been prepared by thermally contact- bonding one film guided on a heating roll and another film guided on a contact- bonding roll, from the heating roll through a roll adjusting the taking-out angle. CONSTITUTION:A film 1 is guided to the side of a heating roll 3 and a film 2 is guided to the side of a contact-bonding roll 4, and thermally contact-bonding lamination is carried out thereon to obtain a laminated film 7, which is thereafter taken out from the heating roll 3 through a roll adjusting the taking-out angle being capable automatically to adjust the contacting distance on the heating roll 3. It is thereby possible to give always a specified amount of heat to the laminated film regardless of the variation in the laminating speed. No occurrence of creases and whitening is observed on the laminated film thus obtained, which has uniform and sufficient strength. | ||||||
| 71 | OPTICAL BONDING MACHINE HAVING CURE IN PLACE AND VISUAL FEEDBACK | US15585620 | 2017-05-03 | US20170324937A1 | 2017-11-09 | ANDREW JOHN NALLY; ALEXANDER M. GIORDANO; EDWARD F. CAREY; JONATHAN NEAL URQUHART |
| An optical bonding machine is provided, including a transparent datum located within the optical bonding machine, wherein the transparent datum supports a first substrate, a robotic placement head configured to pick up a second substrate and place the second substrate into contact with the first substrate, on the transparent datum, a camera disposed proximate the transparent datum, the camera capturing a video of a flow of an optically clear adhesive between the first substrate and the second substrate, and a curing source disposed proximate the transparent datum, the curing source emitting UV rays that pass through the transparent datum and the first substrate to cure an optically clear adhesive between a bonded substrate comprising the first substrate, the optically clear adhesive, and the second substrate. An associated method is also provided. | ||||||
| 72 | Laminating apparatus and laminating method therefor, and printing apparatus | US13064585 | 2011-04-01 | US08778108B2 | 2014-07-15 | Fumio Sato; Hiroyoshi Chin; Tomonori Sumida |
| A laminating apparatus is composed of a transporting device for transporting a card, a film supplying device for supplying a film, a compression bonding device for thermally compression bonding a laminate material on the film onto the card, a driving device for shifting the compression bonding device from a standby location to a compression bonding location, a film taking-up device for taking up the film, a first guide for guiding the film in a supply side of the film, a second guide for guiding the film in a take-up side of the film, and a third guide for guiding the film in an upstream side of the second guide and in a downstream side of the compression bonding device, wherein the third guide moves in conjunction with the compression bonding device. | ||||||
| 73 | SYSTEM AND METHOD FOR FABRICATING A LAMINATE STRUCTURE | US13287323 | 2011-11-02 | US20130105063A1 | 2013-05-02 | Walter J. Dauksher; Adam Gallegos |
| A method for fabricating a laminate structure includes providing a laminate core, forming at least one laminate layer on each opposing side of the laminate core, the laminate core and the at least one laminate layer on each opposing side of the laminate core forming a laminate structure, determining an out-of-plane displacement for the laminate structure at a temperature of interest, the out-of-plane displacement corresponding to warpage, and if the warpage exceeds a predetermined value, modifying at least one of the laminate layers to reduce the warpage. | ||||||
| 74 | Apparatus for producing elastomeric nonwoven laminates | US13156699 | 2011-06-09 | US08114234B2 | 2012-02-14 | Uwe Schneider; Randall Allen Myers; Christoph Johann Schmitz; Martin Geoffrey Scaife |
| An apparatus for producing an elastomeric nonwoven laminate including a plurality of elastomeric strands joined to a nonwoven web in a controlled distribution is provided. The apparatus includes an extruder for extruding a plurality of elastomeric strands onto a cooled surface of a rotating drum, which transports the strands in parallel alignment to a nip formed between two rollers rotating about parallel axis. The drum transfers the plurality of strands to the nip in a controlled distribution where it is bonded with the nonwoven. The apparatus also includes elements which automate the apparatus for creating the elastomeric nonwoven laminate. | ||||||
| 75 | Apparatus for producing elastomeric nonwoven laminates | US12953916 | 2010-11-24 | US07981231B2 | 2011-07-19 | Uwe Schneider; Randall Allen Myers; Christoph Johann Schmitz; Martin Geoffrey Scaife |
| An apparatus for producing an elastomeric nonwoven laminate including a plurality of elastomeric strands joined to a nonwoven web in a controlled distribution is provided. The apparatus includes an extruder for extruding a plurality of elastomeric strands onto a cooled surface of a rotating drum, which transports the strands in parallel alignment to a nip formed between two rollers rotating about parallel axis. The drum transfers the plurality of strands to the nip in a controlled distribution where it is bonded with the nonwoven. The apparatus also includes elements which automate the apparatus for creating the elastomeric nonwoven laminate. | ||||||
| 76 | Apparatus for Producing Elastomeric Nonwoven Laminates | US12953916 | 2010-11-24 | US20110067797A1 | 2011-03-24 | Uwe Schneider; Randall Allen Myers; Christoph Johann Schmitz; Martin Geoffrey Scaife |
| An apparatus for producing an elastomeric nonwoven laminate including a plurality of elastomeric strands joined to a nonwoven web in a controlled distribution is provided. The apparatus includes an extruder for extruding a plurality of elastomeric strands onto a cooled surface of a rotating drum, which transports the strands in parallel alignment to a nip formed between two rollers rotating about parallel axis. The drum transfers the plurality of strands to the nip in a controlled distribution where it is bonded with the nonwoven. The apparatus also includes elements which automate the apparatus for creating the elastomeric nonwoven laminate. | ||||||
| 77 | Laminating machine | US11358300 | 2006-02-20 | US20070193691A1 | 2007-08-23 | Amer Arafat; Frank Wadzinski; Jay Yang |
| A laminating machine configured to apply a film to a media. The laminating machine includes a pair of first rollers that define an in-feed nip, and a pair of second rollers that define an out-feed nip. The laminating machine further includes a threading member movable from the in-feed nip toward the out-feed nip, and wherein the threading member is configured to engage the film. | ||||||
| 78 | Adhesive transfer device | US11496442 | 2006-08-01 | US20060263563A1 | 2006-11-23 | Carl Neuburger |
| The present invention relates to an adhesive transfer device for selectively making a repositionably adherable substrate from a selected substrate. The device comprises a base substrate, a layer of pressure-sensitive repositionable adhesive disposed on the base substrate, a layer of pressure-sensitive permanent adhesive disposed adjacent to the repositionable adhesive layer opposite the base substrate, and structure providing a release surface. The release surface is removably engaged with the permanent adhesive layer opposite the repositionable adhesive layer and the base substrate so as to cover the permanent adhesive layer. The nature of the release surface is such that the base substrate and the structure providing the release surface can be moved apart from one another so as to separate the release surface from the permanent adhesive layer and leave both of the adhesive layers on the base substrate with the permanent adhesive layer exposed, thereby enabling the selected substrate to be adhesively bonded to the exposed permanent adhesive layer. The adhesive layers are provided such that, after the selected substrate has been adhesively bonded to the permanent adhesive layer, the base substrate and the selected substrate can be moved apart from one another so as to separate the base substrate from the repositionable adhesive layer and leaving both the adhesive layers on the selected substrate with the repositionable adhesive layer exposed, thereby allowing the selected substrate to be repositionably adhered to a contact surface by engaging the exposed repositionable adhesive layer with the contact surface. A number of various devices embodying the principles of the present invention are disclosed in the present application, including a tablet having a plurality of adhesive transfer sheets, an adhesive transfer cartridge for use with an adhesive transfer apparatus, and a dispenser for dispensing a length of the base substrate. | ||||||
| 79 | Lamination apparatus | US10081877 | 2002-02-22 | US20020170680A1 | 2002-11-21 | Yasuhiro Shimizu; Masaki Takeuchi; Yasuaki Matsui; Masaki Koroyasu; Akira Okuno; Katsushige Tsukuya; Daimon Ueda |
| The lamination apparatus of this invention enables the operator to keep working without paying attention to the remaining length of the laminating film. The lamination apparatus is used to make lamination layers with a transparent or semitransparent laminating film pasted on such printed matters as posters, advertising fliers or computer output media. The laminate apparatus comprise the following systems and units. Measuring system containing encoder 13 to measure the length of laminate film A pulled out from original roll. Input system 16 for the length of laminate film A set in advance. Calculation system to subtract pulled-out length of laminate film A from that of the original film roll 4. Display unit 17 to indicate the subtracted value of laminate film. Alarm system for issuing a warning when the subtracted value reaches some certain level or less. | ||||||
| 80 | METHOD AND APPARATUS FOR STRIP-COATING A METALLIC STRIP-SHAPED SUBSTRATE WITH A PLASTIC BAND AND STRIP THUS OBTAINED | US09341637 | 1999-09-03 | US20020124944A1 | 2002-09-12 | Petrus Cornelius Jozef Beentjes |
| Method for strip coating a metallic strip-shaped substrate (1) with a band (3) of plastic comprising the stages: (i) in-situ casting of a plastic band, (ii) leading the plastic band around a cooling roll (5, 5a); (iii) leading away the plastic band until the plastic band production is underway and stabilized; (iv) bringing the plastic band up to speed and heating the substrate to a temperature of the substrate close to the softening temperature of the part of the plastic band facing the substrate; (v) pressing the plastic band onto the substrate and where applicable breaking off the plastic band and stopping it being led away; (vi) coating the substrate (1) with the plastic band (3) at high speed | ||||||
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