| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 141 | JPS6233164B2 - | JP14221483 | 1983-08-02 | JPS6233164B2 | 1987-07-20 | TABATA MASARU; NAKAGAWA KOICHI; KITANO YUKIHIKO; ABE KOJI |
| 142 | JPS6212135B2 - | JP21074982 | 1982-11-30 | JPS6212135B2 | 1987-03-17 | MATSURA KINICHI |
| 143 | Multiple reciprocating type vibration feeder | JP14221483 | 1983-08-02 | JPS6036213A | 1985-02-25 | TABATA MASARU; NAKAGAWA KOUICHI; KITANO YUKIHIKO; ABE KOUJI |
| PURPOSE:To realize reduction of supply pitch of parts regardless of use of a powerful electromagnet by providing, in the longitudinal direction, the electromagnet which gives vibrations respectively to a go side trough and a return side trough of the captioned feeder. CONSTITUTION:In the captioned feeder, formed by the plural number of alternately arranged go side troughes 1 equipped with an alignment section, at the front end in the direction of conveyance, letting pass only articles in a definite posture and return side troughes 2 which receive articles dropped from said alignment section and return these to the starting end part of conveyance of the troughes 1, the go side troughes 1 and the return side troughes 2 are respectively connected in one body to form the first, the second trough aggregates A, A'. Then, adsorption parts 4, 4' are respectively fixed on each front and end part of each aggregate A, A', while electromagnets 3, 3' are provided, as vibration driving sources 5, 5', on bases in opposition to the adsorption parts 4, 4'. Further, each aggregate A, A' is supported on the base through the plural number of plate springs slanting in the predetermined direction. | ||||||
| 144 | コンベヤアセンブリ | JP2013048095 | 2013-03-11 | JP6140483B2 | 2017-05-31 | テイラー アレックス アレクサンダー |
| 145 | Conveyor assembly | JP2005310083 | 2005-10-25 | JP5208360B2 | 2013-06-12 | アレキサンダー テイラー アルフレッド; ロナルド マッケイ ギャリー |
| A slip conveyor assembly 10 is disclosed. The assembly 10 includes six slip conveyors 11 to 16 being arranged in series. Each of the conveyors 11 to 16 includes a tray 18 of “U” transverse cross-section. Each tray 18 is operated by a drive assembly 19 that horizontally reciprocates (oscillates) the associated tray 18 to cause product to advance along the assembly 10. Adjacent trays 18 may be displaced so that there is a gap between adjacent trays through which product may be delivered. | ||||||
| 146 | Vibratory conveying apparatus | JP2006338338 | 2006-12-15 | JP4298741B2 | 2009-07-22 | 正夫 大橋 |
| 147 | Of nuclear fuel pellets sorting and alignment mechanism | JP2008549882 | 2007-01-15 | JP2009524012A | 2009-06-25 | ジェローム・ブランシェ; ジャン−リュック・パンドロー; ドミニク・フランソワ; フロリアン・レイロール |
| コンベヤ装置(10)は、ボート内にばら積みで貯蔵された核燃料ペレットから破片および残留物を除去して、燃料棒に充填するためにそれらを整列させるように、互いに垂直方向に離され(d)、整列用のボウルに供給する、2つの振動スクリーン(14、24)の配列を有する。 これらの2つのスクリーン(14、24)によって、システムに渋滞を起こさずに、ペレットは区分され転回されて、破片は効率的にポット(30)に分離される。 | ||||||
| 148 | Straight-type parts feeder | JP2004530520 | 2003-05-29 | JP3974617B2 | 2007-09-12 | 博 中山; 弘 中山; 卓也 西川 |
| 149 | Conveyor assembly | JP2005310083 | 2005-10-25 | JP2006131417A | 2006-05-25 | TAYLOR ALFRED A; MACKAY GARRY R |
| <P>PROBLEM TO BE SOLVED: To provide a slip conveyor for carrying a product to a packing machine. <P>SOLUTION: This invention is a slip conveyor assembly 10. The assembly 10 includes six slip conveyors 11 to 16 arranged in a vertical row. The respective conveyors 11 to 16 include a tray 18 of an " U "-shaped cross section. The respective trays 18 are operated by a driving assembly 19 for advancing the product along the assembly 10 by reciprocating (vibrating) the related tray 18 in the horizontal direction. The adjacent trays 18 can change a position so that a clearance capable of feeding the product exists between the adjacent trays. <P>COPYRIGHT: (C)2006,JPO&NCIPI | ||||||
| 150 | Vibratory parts feeding device | JP2002005926 | 2002-01-15 | JP3704314B2 | 2005-10-12 | 太郎 三村; 博修 野中 |
| A vibratory parts-feedingunit (100) comprises a vibrating body (113) provided with a spiral parts-lifting path (133a) on the outer circumference thereof, a first linear-feeder (130) which receives parts at a parts-sending portion (133c) of the parts-lifting path (133a), and a second linear-feeder (140) having a parts-collecting path (145) for receiving parts rejected from a parts-feeding path (135) provided on the first linear-feeder (130). The parts-collecting path (145) is installed in parallel with the parts-feeding path (135) and is also, throughout its whole length, arranged lower than the parts-feeding path (135). <IMAGE> | ||||||
| 151 | Electromagnetic vibration article carrying apparatus | JP16625088 | 1988-07-04 | JP2565547B2 | 1996-12-18 | MIKATA YOSHITAKA; HIGUCHI SUNAO; HARADA SHOGO |
| 152 | Electronic part feeder | JP16860793 | 1993-06-15 | JPH0741148A | 1995-02-10 | HONMA YASUAKI |
| PURPOSE: To keep always an amount of remaining parts in a bowl constant for stabilizing the ejection of the parts by counting respectively the number of parts supplied from a hopper to a feeder bowl and the number of parts ejected from the bowl and making vibrational excitation so as to keep the difference between both numbers constant. CONSTITUTION: When a vibrational exciter 5 is operated, parts 1' are fed from a hopper 4 to a feeder bowl 2. Then, a sensor 8 in the hopper outlet detects the part 1 fed into the feeder bowl 2 to send a pulse signal to a control unit 9. The part 1 fed into the feeder bowl 2 is moved on a track in the feeder bowl 2 by the vibration of the vibrational exciter 3 to be ejected to a chute 6. The part 1 ejected is detected by a sensor 7 so that a pulse signal may be inputted to the control unit 9. The control unit 9 counts respectively the number of parts ejected from the hopper 4 and the number of parts ejected from the bowl 2 to make ON/OFF control of the vibrational exciter 3 so that a difference between the count values becomes a constant value. COPYRIGHT: (C)1995,JPO | ||||||
| 153 | Posture correcting device for parts in vibrating bowl feeder | JP24579288 | 1988-09-29 | JPH0295616A | 1990-04-06 | URUMA TAMOTSU |
| PURPOSE:To provide a smooth vibrating feed by a vibrating bowl feeder without any jamming of parts by aligning the orientation of parts in one direction at its outlet to feed the parts to a linear feeder. CONSTITUTION:A vibrating bowl feeder 1 is provided with a vibrating bowl 2, in which a feed track 3 is formed. The electronic parts stored in the vibrating bowl 2, for example, tab terminals 4 can be vibrating-fed along the feed track 3. Each of the tab terminals 4 has a head 5 and a lead wire 6, which is connected to the head 5 by welding. At the outlet end of the feed track 3, a clearance 9 small enough for the lead wire 6 to penetrate through is made to cantilever-support a flexible guide bar 8 with a supporting block 10 provided parallel. An intermediate guide 11 is installed beneath the guide bar 8 and an engaging rod 12 is set on the lower side near the free end of the guide bar 8. The lead wire 6 of the tab terminal 4 is fitted to the stopping rod 12 to feed the head 5 ahead of the lead wire. | ||||||
| 154 | Vibrating part supply machine | JP17017888 | 1988-07-08 | JPH0223110A | 1990-01-25 | OGATA MASAKATSU |
| PURPOSE:To positively supply vibrating parts with the parts being held in a specified posture by providing a secondary linear vibrating feeder having a part-posture holding means between a vibrating part feeder and a primary linear vibrating feeder, and supplying the parts only when the parts do not overflow the primary linear vibrating feeder. CONSTITUTION:The parts m in a pole 4 are transferred in a track 5 by torsional vibration of the pole 4, held in a specified posture by a trough 15, and hanged on a trough 17. The parts are then transferred by applied linear vibration, and supplied onto a trough 33 of a linear vibrating feeder 3 on the downstream side. The parts m on the trough 33 are stopped at a gate part. The parts m are pooled on the trough 33, and at this time, if an overflow detector 35 detects any overflow of the pooled parts, a linear vibrating feeder 2 and a vibrating part-feeder 1 are stopped. The parts can thus be positively supplied even at higher speeds. | ||||||
| 155 | Electromagnetically oscillating article carrying device | JP16625088 | 1988-07-04 | JPH0218215A | 1990-01-22 | MIKATA YOSHITAKA; HIGUCHI SUNAO; HARADA SHOGO |
| PURPOSE: To improve the ability in the subjected device for mechanical parts of a fixed form by disposing main and sub troughs connectingly, supporting each trough by a leaf spring in the obliquely oscillating direction, equalizing the ratio of spring constant to mass of each oscillating system, and conducting an excitation at a frequency determined by the square root of the ratio. CONSTITUTION: A main trough 5 is horizontally supported by a main trough spring 4 consisting of a pair of oscillating leaf springs extending off aslant upwards toward the upstream of a carrying direction A. Similarly, a sub-trough 4 is horizontally supported by a sub-trough leaf spring 6 and disposed connectingly to the main trough 5. An electromagnet oscillating device 8 is disposed between the main trough 5 and a body base 3. The ratio of the spring constant K 1 of the main trough spring 5 to the mass m 1 of the main trough 5 is equalized to the ratio of the spring constant K 2 of the sub-trough spring 6 to the mass of the sub-trough 7, and the electromagnet oscillating device 8 is excited at a frequency ω determined by the square root of said ratio. This constitution enables an improvement in ability. COPYRIGHT: (C)1990,JPO&Japio | ||||||
| 156 | JPH0121044B2 - | JP5664983 | 1983-03-30 | JPH0121044B2 | 1989-04-19 | ARAIDA TOMOJI |
| 157 | Counting/filling device for goods | JP8622284 | 1984-05-01 | JPS60232328A | 1985-11-19 | IKEDA MASAOMI |
| PURPOSE:To simplify counting of bivalves or the like through automatically aligning them and correction their posture uniformly and further separating them from each other by introducing the bivalves or the like into a V-shaped feed gutter, driven into vibration by means of a vibrator, and putting them in slight vibration. CONSTITUTION:V-shaped feed gutters 7, 10, 12, driven into vibration by means of a vibrator, are provided between the supply side and the counting/filling side for short-necked clam which is a kind of bivalve. Short-necked clams, aligned in a row, during their transfer in the second gutter 10, are corrected intheir postore in such a manner as the their top parts are erected while their edge parts are lowered, by the difference in transfer speed between the first gutter 7 and the second gutter 10 and the shpe of cross section of the second gutter 10, and are sent into the third gutter 12. In this third gutter 12, in a condition where the posture of the short-necked clam is accurately maintained by the difference in the shape of cross section between the second gutter 10 and the third gutter 12 and also the difference in their transfer speed, a predetermined interval is given between respective short-necked clams, and the transferred short-necked clams are counted in the front end part of the third gutter 12 by means of a counter 13, and then the predetermined number of clams are sent out to a filling part of the next stage. | ||||||
| 158 | Parts true-up conveyor for vibratory parts feeder | JP5664983 | 1983-03-30 | JPS59182120A | 1984-10-16 | ARAIDA TOMOJI |
| PURPOSE:To simplify the construction of a part hanging conveyor and facilitate its adjustment, by causing a part such as a bolt to gravitate to a hanging conveyance passage toward the end of the track of a part feeder to hang the part and by using a magnetic flux to attract the part downward while vibrating it straightly, to put the part in upright position. CONSTITUTION:Parts 1 in a bowl 4 are moved in a track while undergoing a torsional vibration, so that they are arranged as a single layer in a narrow passage at an outlet end and guided to a part true-up conveyance block 7. In the block 7, the leg of each part 1 is passed through an upstream and a downstream holes not shown in the drawing, so that the part drops into the hanging conveyance passage 27 of a straight vibration feeder 3 as the body of the part is at the upside. The part 1 thus put in a hung posture receives the magnetic attractive force of a permanent magnet 31 and a straight vibration so that the part is conveyed while being supported in a stable upright posture. The part 1 can thus be trued up and conveyed in a hung posture by a simple construction. | ||||||
| 159 | Dispersion supply device | JP21074982 | 1982-11-30 | JPS59102719A | 1984-06-13 | MATSUURA KINICHI |
| PURPOSE:To smoothly deliver an article to be conveyed among respective dispersion plates by providing corridors among end parts of each of both dispersion plates in the captioned device wherein the two dispersion plates obtained by respectively providing vibrators phase-shifted by 180 deg. in thier amplitude direction on themselves are provided and plural corridors are arranged on the outside edge of each dispersion plate. CONSTITUTION:Two dispersion plates 1, 1 are provided in parallel to each other and vibrators 2, 2 phase-shifted by 180 deg. in their amplitude direction are provided on the respective dispersion plates 1. Each dispersion plate 1 is formed into an oblique shape being lower in its outside edge, and supply passages 3 are parallely arranged on said outside edge. Semicircular and semicinical shape corridors 4, 4 connect between an initial end part 12 and a final end part 13 of each dispersion plate 1. As to the corridor 4, a working shaft 9 of an anchor block 10 into which a housing 6 is fitted is fitted to an inclination cam groove 8 of the housing 6 provided on the lower part of said corridor, and both the dispersion plates 1, 1 and a flange 7 fixed on the housing 6 are connected by means of coupling levers 5, 5. Hereby, the corridor plates 4 are turned with the vibration of the dispersion plates 1, and vertically moved, thus enabling an article to be supplied to be conveyed on the corridor plates 4. | ||||||
| 160 | Vibrating type high-speed parts feeder | JP3859980 | 1980-03-26 | JPS56136717A | 1981-10-26 | KUBO MASAHIRO; KUBOTA SHIGERU; KANAI IKUJI |
| PURPOSE:To enable the carrying speed to be largely improved, by providing a linear portion to the uppermost carrying board of a spiral projecting edge on inner circumferential surface of a container, and providing a belt conveyor so that the side edge of said linear portion and the side edge portion of the belt conveyor contact with each other. CONSTITUTION:When a large mumber of parts 10 such as ceramic elements are stored in a feeder drum 1 and a vibration generator, which is not shown, is operated, the parts 10 are successively carried onto the uppermost carrying board 60, while being straightened and aligned along a spiral staircase-shaped carrying board 6 having the bottom surface 9 as the starting end and the uppermost carrying board 60 as the terminating end. When the parts 10 carried onto the uppermost board 60 reach the starting point 31 of the side end edge 3 of the uppermost carrying board 60 which contacts with the side edge 4 of a belt conveyor 2, because the linear portion forming said side end edge 3 has no circumferential wall 5, the parts 10 are automatically shifted into the parts carrying groove 7 in the conveyor 2 and carried out of the feeder drum 1 by the conveyor 2. | ||||||
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