| 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 | Method and apparatus for producing an oriented strand lay-up | EP84307556.5 | 1984-11-01 | EP0144156B1 | 1990-12-27 | Churchland, Mark T.; Schilling, Walter W. |
| 62 | Method and apparatus for producing an oriented strand lay-up | EP84307556.5 | 1984-11-01 | EP0144156A2 | 1985-06-12 | Churchland, Mark T.; Schilling, Walter W. |
A process and apparatus for continuously forming a product having elongate members (10) at least about one foot long which are oriented, compressed and bonded. The process comprises depositing elongate members (10) on a moving carrier (39) with an orientation that is substantially parallel to the direction of movement of said carrier (39), said members (14) being deposited on said carrier (39) over a length of carrier (39) that is at least as long as about one-half times the length of the elongate members (10) and is at least as long as about 30 times the final thickness of the compressed, composite product. The apparatus comprises a first conveyor (30) along which elongate members (10) travel, said elongate members (10) being arranged transverse to the direction of travel of said first conveyor (30). This first conveyor (30) feeds a second conveyor (33) which is arranged to move transversely of said first conveyor (30) and to collect said elongate members (10). The second conveyor (33) then feeds a third conveyor (39) whereupon the final product is formed. |
||||||
| 63 | Verfahren und Vorrichtung zur kontinuierlichen Verdichtung von feinteiligen, pulverförmigen Stoffen | EP83107000.8 | 1983-07-16 | EP0108863A1 | 1984-05-23 | Brandt, Bernd, Dr.; Esch, Heinz; Kreher, Alfons, Dr.; Nagel, Werner, Dr. |
Feinteilige pulverförmige Stoffe, wie z. B. gefällte Kieselsäuren oder Silikate, werden verdichtet und derart aus der Verdichtungsvorrichtung mittels einer Austragsvorrichtung (3) ausgetragen, daß eine Wiederbelüftung vermieden wird. Die Verdichtungsvorrichtung kann aus zwei parallel angeordneten, mit einer Saugvorrichtung in Verbindung stehenden Filterwalzen (1, 2), und die Austragsvorrichtung aus einer Austragsschnecke (3) und einer Abstreifvorrichtung (4), die gegebenenfalls als Schneckengehäuse ausgebildet ist, bestehen. Die Verdichtungsvorrichtung kann aus einer mit einer Saugleitung verbundenen Förderschnecke bestehen, die mit der Austragsschnecke verbunden ist. |
||||||
| 64 | 鉱物原料の付着及び詰まり防止方法 | JP2016196631 | 2016-10-04 | JP2018058017A | 2018-04-12 | 吉川 たかし; 森 勝己 |
| 【課題】配管等の移送設備において、湿潤な、石炭、鉄鉱石、ダスト、コークス又は石灰石等の鉱物原料の付着及び詰まりを簡便に防止する方法を提供する。 【解決手段】高吸水性樹脂を、ベルトコンベヤで移送する前又は移送途中の湿潤な鉱物原料に対して散布することにより、湿潤な鉱物原料に高吸水性樹脂を接触させた原料混合物を得る工程を有し、前記原料混合物を移送設備にて移送し、前記鉱物原料の前記移送設備内での付着及び詰まりを防止する、鉱物原料の付着及び詰まり防止方法。 【選択図】なし |
||||||
| 65 | 吸水性ポリマー粒子の製造方法 | JP2016533152 | 2014-11-14 | JP2017504671A | 2017-02-09 | グリューネヴァルト ゲラルト; フンク リューディガー; ヴァイスマンテル マティアス; エイ. ピーターソン モンティ |
| 本発明は、吸水性ポリマー粒子の製造方法であって、−モノマー溶液または懸濁液の重合からの水性ポリマーゲルを加工するステップ、−前記水性ポリマーゲルをコンベヤ乾燥機中で、特に通気式コンベヤ乾燥機中で乾燥させるステップを含み、その際、−前記コンベヤ乾燥機は、循環コンベヤベルトを備え、かつ前記水性ポリマーゲルは、該循環コンベヤベルト上で移送され、かつ−前記循環コンベヤベルトは、循環プレート型コンベヤベルトとして構成されており、前記循環プレート型コンベヤベルトは、ヒンジ集成装置のヒンジ線によって隔たれた多数のベルトプレートを含み、かつそれぞれのベルトプレートは前記水性ポリマーゲルを受容するための表面を有し、前記ヒンジ集成装置は、真っ直ぐなヒンジ線の形のヒンジ線を有するナックル継手を含む、前記製造方法に関する。 | ||||||
| 66 | 含水バラ物の荷揚げ処理方法 | JP2014540922 | 2013-10-09 | JPWO2014058074A1 | 2016-09-05 | 友規 衣笠; 正典 後藤; 恭利 井上 |
| 本発明に従い、含水バラ物に対し、ベルトコンベア上または橋形クレーンやアンローダ機中のホッパー内で、高分子凝集剤を主成分とした薬剤を薬液として添加して、含水バラ物と懸濁湧水の凝集物とした後、該凝集物を、ベルトコンベアで搬送することによって、含水バラ物の荷揚げの際に不可避的に発生する、スラリー状の湧水によるベルトコンベア上の荷揚げ障害を解消することができる。 | ||||||
| 67 | Medium conveyor apparatus and control method | JP2010215837 | 2010-09-27 | JP2012071902A | 2012-04-12 | TOTANI KIMINORI; NUKADA HIDEKI; KOBAYASHI YUKO |
| PROBLEM TO BE SOLVED: To reduce a friction force that works on a thin plate medium to be conveyed.SOLUTION: A medium convey apparatus includes an oscillation unit, a cooling unit, a convey unit, a temperature detector and a controller. The oscillation unit applies oscillation to the thin plate medium as a target to be conveyed. The cooling unit cools air around the thin medium. The convey unit conveys the thin medium. The temperature detector detects a temperature around the medium. The controller controls the cooling unit based on the temperature detected by the temperature detector. | ||||||
| 68 | Belt conveyor device for carrying lowtemperature foods | JP10589098 | 1998-04-01 | JPH11287545A | 1999-10-19 | MURAKAMI TAKASHI; AIZAWA SABURO |
| PROBLEM TO BE SOLVED: To provide a belt conveyor device for carrying low-temperature foods that eliminates the need for cooling an entire processing room and can control the quality and hygiene of foods without being affected by an environmental temperature by forming a refrigeration space only around a conveyor for processing and carrying low-temperature foods. SOLUTION: A cold wind blowing port 4a and a suction port 4b are provided along a carrying direction S of a belt conveyor 2 for carrying low-temperature foods so that they face each other at both left and right sides while sandwiching the belt conveyor 2. A cooling part is provided at a space that is sandwiched by the upper and lower levels of the belt conveyor 2. Cold wind that is cooled by the cooling part is blown to the cold wind blowing port 4a, is emitted to the upper surface of the belt conveyor 2, and is sucked from the suction port 4b, thus circulating the cold air and hence creating a refrigeration space on the surface of the belt conveyor 2 and at the same time cooling the rear surface of the belt conveyor 2 to a specific temperature. COPYRIGHT: (C)1999,JPO | ||||||
| 69 | Deaerator for powder and granule | JP18772987 | 1987-07-29 | JPH01139138A | 1989-05-31 | YAMADA YASUO; NAKAYAMA MAMORU; SAGARA KAZUO |
| PURPOSE:To enhance filling degree of powder and granule and to improve deaeration efficiency by making the screw pitch of a screw conveyor successively smaller at the downstream side end part from a perforated cylindrical part. CONSTITUTION:Powder and granules fed from a feed port 10 with a screw conveyor 4 perforated through the inside of a cylindrical main body 1 is transferred toward a discharge port 11. In the meantime, it is passed through the perforated cylindrical part 1a and sucked through suction and exhaust pipes 8, 8' via vacuum exhaust chamber 12, 12' formed between the cylindrical part and the circumferential outer cylinder 2 and thereby the air admixed with granule is sucked and deaerated. In this case, since the pitch 4b of the screw conveyor 4 in the downstream part is smaller than the deaeration part, namely in the interval to the discharge port 11 from the side plate 3' of the vacuum exhaust chamber 12' the pitch 4b is made smaller than the pitch 4a of the transfer part of the upstream side, the inside of the main body is made to a sealed state by increase of filling degree correspondent to reduction of the transfer volume of granule and thereby suction and exhaust in the deaeration zone are efficiently performed. | ||||||
| 70 | Dust preventive device from flying in pulverulent body transfer | JP7908084 | 1984-04-19 | JPS60223704A | 1985-11-08 | NAKAI MASAYUKI; OKABE YOSHINOBU; ICHIKAWA YOUICHI |
| PURPOSE:To minimize the quantity of water sprayed and to save labor required in the case of transferring coals and others for thermal power generation, by regulating the quantity of water sprayed at a conveyor belt junction based not only on the coal dust condition at the conveyor belt junction and a coal storage but also on air flow and speed at the coal storage by means of a device as referred to in the title. CONSTITUTION:A coal dust detector 12 is installed before and behind jet nozzle 9 at the junction of conveyor belts 4 and a coal storage 5, in addition, an nemoscope, an anemometer 23, and a pulviometer 14 are also arranged in the coal storage 5. Signals from these detectors are inputted into an unit which is not shown in the figure but determine the condition for sprinkling, the quantity of water sprayed from the nozzels 9 can be controlled based on the resultant signal from the above-mentioned detectors. In this configuration, the quantity of water containing a small quantity of surfactant 11 is sprayed in a form of three dimensions over coals falling down at the conveyor belt junction. This configuration is capable of reducing the quantity of water sprayed, of saving labor required, and of preventing dust from flying. | ||||||
| 71 | Method and device for manufacturing aggregate wood | JP23110384 | 1984-11-01 | JPS60174608A | 1985-09-07 | CHURCHLAND MARK T; SCHILLING WALTER |
| 72 | Vibrative dehydrating machine | JP10535882 | 1982-06-21 | JPS58224906A | 1983-12-27 | KOIKE MEIJI; IRIYAMA TAKESHI; IKEDA YOSHIO |
| PURPOSE:To dehydrate a material, by constituting a device such that the material discharged from a classifier machine in a rubble work site or the like is transferred by a conveyer belt running diagonally upward and being vibrated. CONSTITUTION:A material discharged from a classifier machine B is delivered to a trough part 7. The material containing water on the trough part 7 is blocked by a skirt 25 and applied with vibration through a belt 6 of a belt conveyer vibrated by a vibrating bed 8 further moved to travel. In this way, water between material particles is driven out and accumulated in the inside of the skirt 25. In such way, the dehydrated material is conveyed upward by the belt 6 and discharged to a chute 55. By this constitution, the classified material containing water can be dehydrated. | ||||||
| 73 | Coal silo | JP13699581 | 1981-09-02 | JPS5842507A | 1983-03-12 | SHIMOMURA TAIZOU; ENDOU TAKESHI |
| PURPOSE:To eliminate a bridging phenomenon of coal while preventing natural firing by providing a screw shaft extending from the top of a silo to an exhaust port provided in the center of the silo bottom and provided with a inert gas supply means for jetting inert gas into the silo. CONSTITUTION:A silo 3 is formed into an upstanding cylindrical or rectangular tubular body and provided on the lower end of the bottom plate 10 converted in the form of an inverted cone with a coal discharging port 11 and on the upper portion with a coal charging port 7 respectively. Also, a screw shaft 5 is arranged in the center portion of the silo 3 to extend from the top of the silo to the discharging port 11 and can be rotated by a motor 13. Thus, in dumping coal 2 or the like, inert gas such as nitrogen gas is supplied through a supply hose 20 into the silo 3 while being jetted from nozzles 18 through introducing ports 19 provided in the base end 5a of the screw shaft 5 and an inert gas supply path 17 into coal 2 layers in the silo 3 to achieve the desired object. | ||||||
| 74 | Apparatus for charging minutely powdered coal into transportation container | JP12668681 | 1981-08-14 | JPS5831825A | 1983-02-24 | MIZOGUCHI CHIYUUICHI; KATOU SEIJIROU; TOUKAWA MASAO |
| PURPOSE:To charge the minutely powdered coat into a transportation container in high density and inert state by installing a compression device, deaerating device, and inert gas injector in the captioned apparatus. CONSTITUTION:When minutely powdered coal is charged into a transportation container, a vertical screw 15 is installed in the lower part of the conical hopper of a compressor 3, and two rolls 19 freely in biting each other are installed at the exit of the hopper, and the coal is compacted and the amount of minutely powdered coal pushed-out is controlled by the revolution of the rolls and the screw, and the gas or air in the transportation container 14 is extracted by the deaerating device 10, and minutely powdered coal is charged, and then inert gas is injected into the transportation container 14 by an inert gas injector 9. | ||||||
| 75 | 操作装置 | JP2015535007 | 2013-10-02 | JP6313770B2 | 2018-04-18 | エブナー,ロベルト; エブナー,フリッツ ヨセフ; ステインハイマー,ルドルフ |
| 76 | 含水バラ物の荷揚げ処理方法 | JP2014540922 | 2013-10-09 | JP5896037B2 | 2016-03-30 | 衣笠 友規; 後藤 正典; 井上 恭利 |
| 77 | Apparatus and method for dewatering pull the slag from the gasification system | JP2001546842 | 2000-08-31 | JP4602624B2 | 2010-12-22 | ヴァサンタシャルト、プラヴィット; ウィンター、ジョン、ディー; カマルティ、ラジャセカール; − ハオ、エム ツァン、チー; リー、キャサリン、エス; レイニンジャー、トーマス、エフ |
| 78 | Low temperature food conveyor belt conveyor system | JP10589098 | 1998-04-01 | JP3770519B2 | 2006-04-26 | 俊 村上; 三郎 相澤 |
| 79 | Method and apparatus for manufacturing a laminated wood | JP23110384 | 1984-11-01 | JPH0720603B2 | 1995-03-08 | ウエルター、ダブリユ、シリング; マーク、テイー、チヤーチランド |
| 80 | Funmatsujonokotaioyobiekitaioshorikikainonakanidojinikatsurenzokutekinikyokyusurutamenosochi | JP6430781 | 1981-04-30 | JPH0233413B2 | 1990-07-27 | DEIITAA MERUTSU; FUIRITSUPU SHUMITSUTO; PEETAA UAIDENHANMAA |
QQ群二维码
意见反馈
意见反馈