序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
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121 | Paper sheet conveying apparatus | JP2008292662 | 2008-11-14 | JP4256917B2 | 2009-04-22 | 利勝 寺島 |
122 | Paper sheet conveying apparatus | JP2008292642 | 2008-11-14 | JP4256914B2 | 2009-04-22 | 利勝 寺島 |
123 | Paper sheet conveyance device | JP2008292699 | 2008-11-14 | JP2009073671A | 2009-04-09 | TERAJIMA TOSHIKATSU |
PROBLEM TO BE SOLVED: To provide a paper sheet conveyance device capable of excellently conveying paper sheets. SOLUTION: A sensor 100 for detecting the passage of paper sheets is provided in the vicinity of a connection part of air delivery tubes (22) to a common tube path 82. A control unit opens an on-off valve 80 of one air delivery tube 22 when the paper sheets are thrown in one air delivery tube 22 out of the air delivery tubes 22. When it is detected that the paper sheets are thrown in the other air delivery tube 22, the on-off valve 80 of one air delivery tube 22 is closed when it is detected by the sensor 100 that the paper sheets conveyed through one air delivery tube 22 reach the common tube path 82, and the on-off valve 80 of the other air delivery tube 22 is opened to convey the paper sheets. When it is detected by the sensor 100 that the paper sheets in the other air delivery tube 22 reach the common tube path 82, the on-off valve 80 of the air delivery tube 22 at the upstream side out of one air delivery tube 22 and the other air delivery tube 22 is opened, and the on-off valve 80 of the air delivery tube 22 at the downstream side is closed. COPYRIGHT: (C)2009,JPO&INPIT | ||||||
124 | Paper sheet conveyance device | JP2008292674 | 2008-11-14 | JP2009046312A | 2009-03-05 | TERAJIMA TOSHIKATSU |
PROBLEM TO BE SOLVED: To provide a conveyance device capable of good conveyance of paper sheet. SOLUTION: In a paper sheet conveyance device, an air delivery tube 22 is connected with a twisted tube part 68, which has ribs connected to ribs 40 of the air delivery tube 22 and is twisted by a predetermined angle with respect to the air delivery tube 22, and a bending device 30 feeds paper sheets with deformed part 32b in an air delivery tube 22 to convey the paper sheets by wind pressure acting on the deformed part 32b. If it is detected that paper sheets are put in a plurality of air delivery tubes 22, a control part 90 opens an on-off valve 80 of one air delivery tube 22 out of the plurality of the air delivery tubes 22 and closes on-off valves 80 of other air delivery tubes 22 to feed the paper sheets in one air delivery tube 22. After the paper sheets are collected by a collection device 34, the control part 90 closes the on-off valve 80 of one air delivery pipe 22, and controls a drive part 85 to sequentially open the on-off valve 80 of another air delivery pipe 22. COPYRIGHT: (C)2009,JPO&INPIT | ||||||
125 | Paper sheet conveying device | JP2008292648 | 2008-11-14 | JP2009029637A | 2009-02-12 | TERAJIMA TOSHIKATSU |
PROBLEM TO BE SOLVED: To provide a conveying device capable of appropriately conveying paper sheets. SOLUTION: A paper sheet feeding device 28 is provided with a paper sheet bending device 30 for forming a deforming part 32b for the sheet paper. On the wall surface of the blast tube 22, a plurality of ribs 40 projecting inward of the blast tube 22 to predetermined heights from the wall surface and extending in a blast direction are formed so that the interval between tips of the ribs 40 becomes long enough for the passage of the deforming part 32b of the paper sheet 40 therethough. The blast tube 22A has a bent part 23 and is connected with a bent tube 92 having ribs connected to the ribs 40 of the blast tube 22. The rib 40 at a portion of the bent part 23 of the bent tube 92 is formed to become gradually lower from the upstream side of the bent part 23 to the bent part 23 and is formed to become higher from the bent part 23 toward a downstream side. The paper sheet in which the deforming part 32b is formed by a bending device 30 is fed into the blast tube 22 and the paper sheet is conveyed by wind pressure acting on the deforming part 32b. COPYRIGHT: (C)2009,JPO&INPIT | ||||||
126 | Paper sheet transport method and the paper sheet conveying apparatus | JP2007550605 | 2007-08-06 | JP4182143B2 | 2008-11-19 | 利勝 寺島 |
127 | Over-the-counter distribution apparatus and methods of use thereof with a container | JP2007529933 | 2005-08-12 | JP2008511914A | 2008-04-17 | ポール チブ; スティーヴン ピー バートン |
【課題】 店頭商品の販売を改善するための機器及び方法を提供する。
【解決手段】 本発明は、店頭分配装置及びその使用方法を提供する。 店頭分配装置は、容器を受け取るようになったハウジングを含む。 店頭商品の在庫を含む容器は、ハウジング内に置くことができる。 装置は、更に、容器から商品を分配するための分配器を含む。 ハウジングは、各々が異なる店頭商品の在庫を含む複数の容器を受け取るようになっている場合がある。 分配器は、複数の容器の各々から商品を分配するように適応させることができる。 【選択図】 図1 |
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128 | Device and take-out method of taking out the product separately from the product, which is a large amount supplied in bulk | JP2003513877 | 2002-07-19 | JP4027891B2 | 2007-12-26 | ウィリアムズ,ジェフ; ペル,チャールズ・エイ; ポラード,ジャスパー; ミケッリ,リチャード・ディー; ムーディ,ライアン |
A singulating and counting device includes a bulk housing for storing a plurality of substantially identical articles, an exit channel, and in the exit channel, forwardly- and rearwardly-directed jet apertures, each of which is fluidly connected to a positive pressure source. A forwardly-directed jet generated by the positive pressure source through the forward jet aperture can accelerate singulated articles in the exit channel, thereby increasing the interval between individual articles and rendering them more easily and accurately counted. A rearwardly-directed jet generated by the positive pressure source through the rearwardly-directed jet aperture can cause articles in the exit channel to return to the housing. A controller operatively connected with the pressure source(s) selectively controls the application of positive pressure to the aforementioned apertures to induce or halt singulation of the articles; the controller may be operatively associated with a sensor that detects and counts articles passing through the exit channel. | ||||||
129 | Device and method for component supply | JP2005323841 | 2005-11-08 | JP2007134412A | 2007-05-31 | FUJII MASANAO; SUZUKI MASAHARU; SHIMAMURA KOICHI; KAMIYA YOSHIHISA |
<P>PROBLEM TO BE SOLVED: To securely supply components in various shapes with a small and simple structure in a component supply device where the components loaded in a component loading room are supplied from a component supply. <P>SOLUTION: The component supply device is provided with a device main body 11 where the component loading room 12A is formed in which the component 16 is loaded, a blow-out port 13A blowing off compressed air into the component loading room 12A, a lid body 15 arranged above the component loading room 12A, and a grooved component supply 14A which is disposed on a top plate 17 to connect with a side 20A of the component loading room 12A and to which the component 16 is introduced with flow-in of compressed air. <P>COPYRIGHT: (C)2007,JPO&INPIT | ||||||
130 | Discharging filter rod from conveying conduit | JP2004200354 | 2004-07-07 | JP2005027669A | 2005-02-03 | HAUL MICHAEL |
PROBLEM TO BE SOLVED: To improve filter rod supply for a receiving station by giving proper effects on the filter rod flow, which supply can be detected predetermined filter rods, especially rods having some defects, to the utmost. SOLUTION: The method and device for longitudinally axial transfer of rod-shaped articles, especially, filter rods (6) of the cigarette processing industry from a transmitting station to a receiving station (8) via a connecting conduit (10) are provided. The method includes separating the articles (6) in the connecting conduit (10) and, successively, discharging from the connecting conduit(10) by gate device (21 and 210). COPYRIGHT: (C)2005,JPO&NCIPI | ||||||
131 | Device and take-out method of taking out the product separately from the product, which is a large amount supplied in bulk | JP2003513877 | 2002-07-19 | JP2004535344A | 2004-11-25 | ウィリアムズ,ジェフ; ペル,チャールズ・エイ; ポラード,ジャスパー; ミケッリ,リチャード・ディー; ムーディ,ライアン |
A singulating and counting device includes a bulk housing for storing a plurality of substantially identical articles, an exit channel, and in the exit channel, forwardly- and rearwardly-directed jet apertures, each of which is fluidly connected to a positive pressure source. A forwardly-directed jet generated by the positive pressure source through the forward jet aperture can accelerate singulated articles in the exit channel, thereby increasing the interval between individual articles and rendering them more easily and accurately counted. A rearwardly-directed jet generated by the positive pressure source through the rearwardly-directed jet aperture can cause articles in the exit channel to return to the housing. A controller operatively connected with the pressure source(s) selectively controls the application of positive pressure to the aforementioned apertures to induce or halt singulation of the articles; the controller may be operatively associated with a sensor that detects and counts articles passing through the exit channel. | ||||||
132 | Precision resistor tube feeder | JP2002577290 | 2001-04-02 | JP2004533381A | 2004-11-04 | クラタスケ,ダリル,ジェイ.; ベルチ,トーマス,エル. |
【課題】レジスターのチューブ供給のためのシステム、方法および装置を提供する。
【解決手段】或る長さのチュービング(12)を具備し、レジスターコア(18)および圧縮空気を受理するようにしたチューブマガジン(10)が開示されている。 このチューブマガジン(10)はレーザースパイララー(28)および終端ウェルダー(36)に接続されていてもよい。 このチューブマガジン(10)を充填するプロセスは電子的に制御されていてもよい。 【選択図】図3 |
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133 | Storage take-out system | JP2001511354 | 2000-06-26 | JP2003505311A | 2003-02-12 | ブレンキンソップ・フィリップ・トーマス |
(57)【要約】 貯蔵取出システムが、複数の貯蔵孔を有する少なくともひとつの貯蔵トレイを有する。 ガス供給マニホルドが、使用の際、少なくともひとつのガス供給ポートに加圧ガスを供給する。 前記トレイが前記マニホルドに対して移動可能とされることで前記トレイ中の選択された貯蔵孔が前記ポートと位置合わせされ、使用に際し、加圧ガスが前記ポートを通じて前記選択された孔に加えられ、前記選択された孔に貯蔵されたコンテナを前記トレイから取出し可能な位置へと制御可能に移動される。 | ||||||
134 | Hydraulic container conveying device | JP18927090 | 1990-07-17 | JPH03182422A | 1991-08-08 | ARUFURETSUDO BORUTSU; GIYUNTAA BOOSU |
PURPOSE: To smoothly convey containers of various kinds of shapes and sizes by hydraulic fluid, while keeping optimum intervals in a prescribed piping, by providing a cassette storing containers to be conveyed with an opening part for carry-in/out of the containers in a direction perpendicular to a conveying direction. CONSTITUTION: Liquid 2 flows through the inside of a piping 1 whose cross section is a rectangle. A cassette 5 is conveyed together with a container 4 contained at the inside by pressurized liquid 2. Liquid 2 flows into the cassette 5 through a flow port 6 of the cassette 5 and comes into contact with the container 4. A lower side member 10 and an upper side member 11 are provided with a part H overlapped each other in a state that the container 4 is stored and the members 10 and 11 are combined. This overlapped part H is larger than clearance (Sa+Sb) provided in space with an inner wall of the piping 1. Therefore, the members 10 and 11 are overlapped each other over H-Sa-Sb, even if the cassette 5 hits on the inner wall of the vertical direction of the piping 1. COPYRIGHT: (C)1991,JPO | ||||||
135 | JPH0327452B2 - | JP17399486 | 1986-07-25 | JPH0327452B2 | 1991-04-16 | RONARUDO EI RENHAATO |
136 | Tabakokakokikainiokerufuirutarotsudohansoyonosorakiryokushikihansokuikinoketorisuteeshon | JP8927580 | 1980-07-02 | JPH0229566B2 | 1990-06-29 | AROISU KASUPAREKU; YURUGEN BURUGAA |
137 | JPS6443027U - | JP11220888 | 1988-08-29 | JPS6443027U | 1989-03-15 | |
138 | Article conveyance system | JP4408588 | 1988-02-26 | JPS63295321A | 1988-12-01 | MAIKURU JIYON KAHIRU; KEBIN RICHIYAADO FUINCHIYAMU |
139 | Deceleration method for substance to be transferred and its device in pneumatic transfer system | JP751887 | 1987-01-16 | JPS63176217A | 1988-07-20 | TSUBATA YUKIHIRO; SHIINO MASARU |
PURPOSE: To decelerate transfer substance so as to prevent shock by arranging the constitution in such a way that an air-bleed port is provided near the exit of a transport tube and the reverse flow air is sucked from the exit of a transfer tube and exhausted together with the transfer power blow in the pneumatic transfer of cylindrical case for film. CONSTITUTION: A part of a transfer tube 12 near the exit of a transport tube 12 is housed in a chamber 31 and many air-bleed ports 32A are bored in the transfer tube 12 inside the chamber 31, which are used as suction part 32 and connected to an exhaust fan 36. By this constitution, the exhaust blow rate of the exhaust fan 36 is made larger than the blow rate of an ejector not shown in the figure and the exhaust fan 36 is driven. Hereby, the air reversely flows in from the exit 12 of the transfer tube 12 toward the suction part 12 and exhausted together with the transfer power blow. Accordingly, the transfer substance is decelerated by the reverse blow and the shock can be prevented and the damage can be prevented. COPYRIGHT: (C)1988,JPO&Japio | ||||||
140 | Pneumatic type conveyor | JP17399486 | 1986-07-25 | JPS6331938A | 1988-02-10 | RONARUDO EI RENHAATO |