| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 101 | Vibratory conveyor device | US547425 | 1995-10-24 | US5855269A | 1999-01-05 | Brian Thomas Flinton |
| A materials handling device comprising a cascade of vibrating conveyors (61, 71, 81), each upstream conveyor (61, 71) being nestable in an adjacent downstream conveyor (71, 81) with clearance, and at least one of any two adjacent conveyors being movable relative to the other conveyor from a nested condition in which product is conveyed from the upstream conveyor to the adjacent downstream conveyor to a separated condition in which product falls from the upstream conveyor into a gap formed between the upstream and downstream conveyors. The invention avoids mechanical gates which are noisy, unreliable and are liable to trap the product being conveyed. | ||||||
| 102 | Apparatus for sorting constituents of a mixture | US625677 | 1996-04-03 | US5611435A | 1997-03-18 | Reinhard Goschl |
| Apparatus for sorting constituents of a mixture according to density and/or grain size includes a vibratory table which extends at an inclination underneath a feed inlet for transport in a conveying direction and sorting of the mixture. The vibratory table is subdivided transversely to the conveying direction into single table sections, with each table section being driven by two crankshafts of a crank mechanism and with the movement of the table sections being adjusted to each other by the crankshafts at a phase shift. In order to bridge the gap between successive table sections, flexible transition members are provided by which neighboring table sections are connected with each other end-to-end. | ||||||
| 103 | Part feeding apparatus capable of stable feedback control of feeding amount of parts | US261218 | 1994-06-15 | US5526917A | 1996-06-18 | Yasuaki Homma |
| In a part feeding apparatus including a feeder bowl for discharging and feeding parts to an assembly apparatus and a hopper for discharging and feeding parts to the feeder bowl, a counter for counting parts discharged from the hopper and a counter for counting parts discharged from the feeder bowl are provided. The hopper is driven, so that a difference between values of the two counters is brought close to a definite value. | ||||||
| 104 | Multiple-channel vibrating feeding table | US91135 | 1993-07-09 | US5353917A | 1994-10-11 | Roberto Maggioni |
| The multiple-channel vibrating feeding table includes a table provided with a plurality of mutually adjacent troughs which define the channels for conveying loose parts, motor element for vibrating the table, and elements for connecting each of the troughs to the motor elements, the connecting elements being individually actuatable in order to vibrate only selected trough or troughs. | ||||||
| 105 | Vibratory conveyor | US706982 | 1991-05-29 | US5211277A | 1993-05-18 | Michael J. Mount |
| A conveyor system is provided for transporting a product such as a snack food product or crisps. A plurality of main line conveyors are arranged end to end, and a crossfeeder conveyor extends transversely from a lateral edge of the downstream end of each main line conveyor. The main line conveyors are arranged to vibrate both longitudinally and laterally, for example by the use of leaf springs arranged at an angle. Selective actuation of the various main line conveyors and crossfeeder conveyors enables product to be transported to selected ones of the crossfeeder conveyors as desired. | ||||||
| 106 | Vibratory conveyor | US899775 | 1992-06-17 | US5207310A | 1993-05-04 | Keith L. Maddocks |
| A distribution system including a vibratory conveyor having a number of conveyor modules to distribute bulk food products to packaging machines at user locations. The product is fed using longitudinal vibration of a product carrying tray mounted on leaf springs which resist lateral vibration. At the downstream end only of the conveyor, additional lateral vibration is induced by vibrating the base on which the leaf springs are mounted. First and second electromagnetic drives for the longitudinal and lateral vibrations are controlled by a clock pulse generator to operate in synchronism, either in phase or in anti-phase, and are controlled independently of each other as to operation and amplitude. The arrangement enables optimized distribution of fines in the bulk food product. | ||||||
| 107 | Apparatus and methods for conveying materials | US708288 | 1991-05-31 | US5183143A | 1993-02-02 | James F. Sullivan, Jr. |
| Conveying apparatus and methods employ a continuously vibrating element and a plurality of longitudinally aligned, overlapping, inclined conveyor pans, each of which has its own independently operable discharge gate. Material may be moved by the conveyor from a source to one or more material discharge destinations by selectively coupling and uncoupling predetermined conveyor pans to the continuously vibrating element. When not coupled to the continuously vibrating element, the conveyor pans are at rest in motionless isolation from the pans that are vibrating. | ||||||
| 108 | Transfer apparatus | US660047 | 1991-02-25 | US5085314A | 1992-02-04 | Alan Higson |
| A transfer apparatus having a platform in the form of two members extending in adjacent parallel relationship in a substantially linear direction. Vibrators are arranged to oscillate the members independently of each other in out-of-phase relationship in the linear direction. The members may have their faces in angular facing relationship. The faces of the members have thereon cushion elements which comprise a multiplicity of extremely fine, flexible synthetic polymer fibers having a length no greater than about 2.5mm, and an inclined orientation of at least 70.degree. from a backing. | ||||||
| 109 | Parts feeder with chute | US759516 | 1985-07-26 | US4633995A | 1987-01-06 | Genichi Hamada |
| A chute for use with an electromagnetically vibratable parts feeder has an inlet end attached to a bowl tangentially thereto and an outlet end remote from the inlet end. A leaf spring assembly is disposed below the chute and attached thereto adjacent to the outlet end. The leaf spring assembly is inclined at an angle to the chute, and comprises a pair of parallel spaced leaf springs or a sole leaf spring. Each of the leaf springs has an upper end coupled to the chute and a lower end adapted for attachment to a stationary base such as a machine base. The upper end is located more closely than the lower end to the outlet end of the chute. When the bowl is electromagnetically vibrated in circular back-and-forth movements, the chute is reciprocably moved back and forth to cause parts to move forward therealong due to inertia. | ||||||
| 110 | Vibratory conveyor | US360172 | 1982-03-19 | US4462522A | 1984-07-31 | Rene Fluck |
| A vibratory conveyor composed of a plurality of parallel vibratory conveying troughs for transporting fragile articles, the troughs being driven by a conveyor drive composed of a rotatable drive shaft and at least one group of at least four drive elements each connected to undergo oscillatory movement in response to rotation of the drive shaft. Each trough is connected to a respective drive element to undergo vibratory movement in response to rotation of the drive shaft. The drive elements of the group are arranged in two equal subgroups bearing a mirror image configuration to one another relative to a plane normal to the axis of rotation of the drive shaft, and the drive elements of each subgroup are connected to the drive shaft in such a manner that their respective oscillatory movements are uniformly offset in phase from one another. | ||||||
| 111 | Sample splitter | US219268 | 1980-12-22 | US4391359A | 1983-07-05 | Joseph A. Lapointe |
| A sample splitter is formed by a chute that is sloped towards its discharge end and is oscillated back and forth on a horizontal path that is substantially perpendicular to the axial center line of the chute. The chute itself is substantially symmetrical on opposite sides of the axial center line and the walls are sloped upward so that the material forming the sample to be split moves along the chute with a sliding or rolling action back and forth across the axial center line of the chute without significant bouncing of the discrete pieces of the material. An elongated V-shaped plow is positioned at the discharge end of the chute with the apex of the plow forming a substantially straight line that is in axial alignment with the center line of the chute at the mid-point of the oscillation of the chute. The oscillation motion of the chute causes the material of the sample to slide down the chute and to be projected off the discharge end on one side or the other of the apex of the plow. | ||||||
| 112 | Vibrating apparatus utilizing a plurality of vibrating sources | US3659465D | 1969-11-07 | US3659465A | 1972-05-02 | OSHIMA GORO; NISHITAKE SHIGEKI |
| A vibrating apparatus utilizing a plurality of vibrating sources, in which confronting massive bodies each including a rotary-type vibration-applying machine are distributed, through respective resonant resilient members such as springs, onto such a vibrating body to be vibrated as a conveyer, and said machines are operated in synchronous and in phased relation, whereby an extremely long vibrating-type conveyer which has not been possible has become practical, power output capacity of the apparatus is increased, and manufacture of a vibrating-type conveyer having a desired length can be made possible by connecting a plurality of unit conveyers.
|
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| 113 | Conveyor assembly | JP2013048095 | 2013-03-11 | JP2013209221A | 2013-10-10 | TAYLOR ALFRED ALEXANDER |
| PROBLEM TO BE SOLVED: To solve a problem caused when a bag of a different size is to be produced, wherein a packaging machine and an associated conveyor are required to be shut down because the machine is required to be replaced.SOLUTION: A slip conveyor (50) delivers product. The slip conveyor (50) delivers product to weighing machines (53) that would be typically associated with a packaging machine. The slip conveyor (50) includes a delivery portion (57) provided with a plurality of separated fingers. Slots (58) between the fingers extend longitudinally in the direction (52). Smaller product, such as smaller potato crisps, are located adjacent longitudinally extending edges (63) of the conveyor (10), the smaller product passes through the gaps (26A) that provides for delivery of product to the associated conveyor (62). | ||||||
| 114 | System for providing components | JP2011548662 | 2010-02-02 | JP2012516822A | 2012-07-26 | パーラウド,セバスチャン; ハフナー,トビアス; ムサード,イブス |
| 本発明は、構成部品を供給するための、特に小型構成部品を輸送するためのシステムに関する。 供給システム(1)は、ロボットによって構成部品を把持できるようにするための表面を形成するプレート(3)、並びに空間の3つの方向の内の1つで前記プレート(3)を振動できるように、及び前記3つの方向x、y、及びzのどのような組み合わせにも対応する方向で前記プレート(3)を振動できるように配置される振動手段(12)を具備する振動装置(2)を含む。 この目的のため、前記振動手段は、それぞれ、少なくとも5自由度で移動するように配置される振動要素を含む振動アクチュエータ(12)を含む。
【選択図】図4 |
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| 115 | 直進型パーツフィーダ | JP2004530520 | 2003-05-29 | JPWO2004018329A1 | 2005-12-08 | 中山 弘; 弘 中山; 卓也 西川; 中山 博; 博 中山 |
| 本発明の直進型パーツフィーダは、ベースプレートと、前記ベースプレートの上部に固定された一対の圧電振動子と、前記圧電振動子に複数対のスペーサ及び複数対のバネ部材を介して連結された複数のトッププレートとを備えて構成されている。 | ||||||
| 116 | Vibration parts feeder | JP17017888 | 1988-07-08 | JP2625921B2 | 1997-07-02 | 正勝 尾形 |
| 117 | Vibration parts supply device | JP31863989 | 1989-12-07 | JP2518705B2 | 1996-07-31 | 友二 新井田 |
| 118 | Removal method clogging parts of the vibration component carrier machine | JP29442588 | 1988-11-21 | JPH0798567B2 | 1995-10-25 | 勝 赤間 |
| 119 | Transfer device | JP1186891 | 1991-03-06 | JPH0743163U | 1995-08-18 | ヒグソン アレン |
| (57)【要約】 【目的】 物、特に比較的軽量な物、例えば、比較的小さい毀れやすい物等を移送する装置を提供することである。 【構成】 移送装置が、隣接した平行な関係にほぼ直線方向に延びる二つの部材(64、66)の形態のプラットフォームを有し、バイブレーター(54、56、5
8、60)が、部材(64、66)を互に独立して位相の外れた関係に直線方向に振動させるように配設され、 部材(64、66)は、角をなして向い合う関係にある面を有してるのがよく、部材(64、66)の面は、その上に多数の極めて細い可撓性合成高分子繊維を備えたクッション要素(68、70)を有し、前記繊維は、約2.5mm以下の長さと、裏材料から少なくとも70゜の傾斜したオリエンテーションを有する。 |
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| 120 | Control of vibration parts linear feeder | JP11993288 | 1988-05-17 | JPH01288516A | 1989-11-20 | ARAIDA TOMOJI |
| PURPOSE:To prevent passage holes from being clogged and make feeding smooth in a linear feeder for tantalum condenser or the like by intermittently driving and stopping the feeder. CONSTITUTION:Applying torsional vibration to a bowl 11, parts m in the bowl 11 are transferred along an upper stage track 31 and dropped through cuts 34 down to a lower stage track 31. Overlapping parts m are guided by a wiper plate 32, dropped down to the bowl 11, and the remaining parts are aligned in a single layer and row and introduced to an attitude retention track 35. Attitude of the parts is aligned with the attitude retention track 35 and the parts in multiple rows are dropped to the cuts 43. The parts then receive aligning action at an aligning section 36, receive attitude correction at an attitude correction section 37, and fed to a linear vibration feeder 20 via an attitude retention track 38. In this case, energization to a vibration feeder coil (not shown) is performed intermittently to prevent the passage holes from being clogged and to make the feeding smooth. | ||||||
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