| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 81 | Speed checking attachment for use with vibratory conveyors | US15453704 | 2017-03-08 | US10121307B2 | 2018-11-06 | Gulzar Ahmed |
| A product speed checking apparatus for attaching to a vibratory conveying system and a method thereof for dispensing product, including a sample pan mounted to capture flow of product between two vibratory conveyors; a first sensor and a second sensor, each placed separately at a predetermined distance from one another and each capable of independently reading product handled by the sample pan; and, a programmable logic controller operatively arranged to calculate an approximate time between the reading of product by the first sensor and the reading of product by the second sensor and computing product speed by dividing distance between two sensors with the travel time between the two sensors. | ||||||
| 82 | Speed Checking Attachment for Use With Vibratory Conveyors | US15453704 | 2017-03-08 | US20180261036A1 | 2018-09-13 | Gulzar Ahmed |
| A product speed checking apparatus for attaching to a vibratory conveying system and a method thereof for dispensing product, including a sample pan mounted to capture flow of product between two vibratory conveyors; a first sensor and a second sensor, each placed separately at a predetermined distance from one another and each capable of independently reading product handled by the sample pan; and, a programmable logic controller operatively arranged to calculate an approximate time between the reading of product by the first sensor and the reading of product by the second sensor and computing product speed by dividing distance between two sensors with the travel time between the two sensors. | ||||||
| 83 | Conveyor assembly | US13846848 | 2013-03-18 | US10023391B2 | 2018-07-17 | Alfred Alexander Taylor |
| A slip conveyor (50) delivers product to a further conveyor (50) that in turn 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 (59). Slots (58) between the fingers (59) 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). | ||||||
| 84 | Process for processing fresh produce | US15142487 | 2016-04-29 | US09894909B1 | 2018-02-20 | Carter McEntire; R. C. McEntire, Jr.; Tom Lovelace; David Morris |
| Thorough spraying and draining freshly cut produce and the equipment processing it in a one-pass system that uses a dilute solution of chilled ultrapure water and chlorine dioxide or chlorine or both significantly reduces bacterial counts. Raw produce is sprayed as it is conveyed to cutting heads and as the cut pieces fall into a hopper above a conveyor. The conveyed cut produce is vibrated and tumbled while being sprayed from above. At the end of the process, the cut produce is sprayed with potable water and deposited in a dryer basket. Drainage from the equipment is collected and processed through a multi-stage water filtration system to potable quality. The near freezing water temperature, its ultra-purity, and the concentrations of biocides in the sanitizing spray are carefully established, monitored and maintained by a process controller. | ||||||
| 85 | Vibratory product conveyor system | US14665830 | 2015-03-23 | US09463935B1 | 2016-10-11 | James L. Karpinsky; Scott J. Rose; James M. Bakos; Adam A. Smith |
| A vibratory conveyor system particularly suitable for elongated foodstuffs and other products includes a rogue product removal pan which can only pass a single one of the items being processed, with the item having the desired alignment/orientation, through each of its product acceptance lanes at a given time. Items therefore leave the rogue product removal pan in orderly rows of single items, thereby easing their packaging. Misaligned items, and or items that were stacked atop other items, are culled by the rogue product removal pan, and can be “recycled” back to the entry of the rogue product removal pan. These “recycled” items are passed through the rogue product removal pan for packaging if they assume the desired orientation, or are again culled and “recycled” if they do not assume the desired orientation. | ||||||
| 86 | System and process for processing fresh produce | US14456516 | 2014-08-11 | US09326543B2 | 2016-05-03 | R. C. McEntire, Jr.; Carter McEntire; Tom Lovelace; David Morris |
| Thorough spraying and draining freshly cut produce and the equipment processing it in a one-pass system that uses a dilute solution of chilled ultrapure water and chlorine dioxide or chlorine or both significantly reduces bacterial counts. Raw produce is sprayed as it is conveyed to cutting heads and as the cut pieces fall into a hopper above a conveyor. The conveyed cut produce is vibrated and tumbled while being sprayed from above. At the end of the process, the cut produce is sprayed with potable water and deposited in a dryer basket. Drainage from the equipment is collected and processed through a multi-stage water filtration system to potable quality. The near freezing water temperature, its ultra-purity, and the concentrations of biocides in the sanitizing spray are carefully established, monitored and maintained by a process controller. | ||||||
| 87 | System and Process for Processing Fresh Produce | US14456516 | 2014-08-11 | US20150157034A1 | 2015-06-11 | R.C. McEntire, JR.; Carter McEntire; Tom Lovelace; David Morris |
| Thorough spraying and draining freshly cut produce and the equipment processing it in a one-pass system that uses a dilute solution of chilled ultrapure water and chlorine dioxide or chlorine or both significantly reduces bacterial counts. Raw produce is sprayed as it is conveyed to cutting heads and as the cut pieces fall into a hopper above a conveyor. The conveyed cut produce is vibrated and tumbled while being sprayed from above. At the end of the process, the cut produce is sprayed with potable water and deposited in a dryer basket. Drainage from the equipment is collected and processed through a multi-stage water filtration system to potable quality. The near freezing water temperature, its ultra-purity, and the concentrations of biocides in the sanitizing spray are carefully established, monitored and maintained by a process controller. | ||||||
| 88 | Slip conveyor | US13506211 | 2012-04-04 | US08727104B2 | 2014-05-20 | Alfred Alexander Taylor |
| A slip conveyor (10) having a plurality of trays (11, 12, 13). Each of the trays (11, 12, 13) has an end portion (19) with an edge (29) inclined to the longitudinal direction of movement (14) of the tray (11, 12, 13). | ||||||
| 89 | System for supplying components | US13146102 | 2010-02-02 | US08550233B2 | 2013-10-08 | Sebastien Perroud; Tobias Hafner; Yves Mussard |
| A system (1) for supplying components, particularly for transporting small components includes a vibrating device (2) provided with a plate (3) forming a surface for enabling the components to be grasped by a robot and a vibrating element (12) arranged to be capable of vibrating the plate (3) in one of the three directions in space and to be capable of vibrating the plate (3) in directions corresponding to any combination whatsoever of the three directions x, y and z. For this purpose, the vibrating element includes vibrating actuators (12) respectively including a vibrating element arranged to move with at least five degrees of freedom. | ||||||
| 90 | Discrete article spacing apparatus for vibration trays | US12628740 | 2009-12-01 | US08225925B2 | 2012-07-24 | Loris Bassani |
| A container filling machine comprising a vibration tray that is suitable for moving discrete articles from a discrete article receiving end of the vibration tray towards a plurality of guiding paths that lead to a container. The container filling machine further comprises at least one spacing device located in proximity to the vibration tray. The at least one spacing device is operative for receiving the discrete articles from the vibration tray at a first speed, and causing the discrete articles to be deposited into the plurality of guiding paths at a second speed. The second speed is greater than the first speed. | ||||||
| 91 | Method and apparatus for transporting a product within a diffuser | US11887092 | 2006-03-23 | US08088226B2 | 2012-01-03 | Michael John Gibbon; William Howard Yeo |
| A method and apparatus for transporting a product within a diffuser during a continuous lixiviation process. The apparatus comprises at least one screen deck for the continuous lixiviation process and at least one longitudinal transport zone, the longitudinal transport zone extending between an inlet and outlet of the diffuser. The transport zone may include a plurality of transport zones. A drive means is arranged to move the longitudinal transport zone at a first speed towards the outlet end of the diffuser and to retract the longitudinal transport zone at a second speed which is substantially faster than the first speed towards the inlet end of the diffuser, so that the transport zone drive the product towards the outlet of the diffuser. | ||||||
| 92 | CONVEYOR WITH SAFETY GATE | US12635860 | 2009-12-11 | US20110139588A1 | 2011-06-16 | Kenneth Petri; Anselm Pajuodis; Steven Bullard |
| A conveyor (10) includes an elongate tray (12) for supporting goods thereon, and a powered drive (16) to move goods along the tray. In one embodiment, a gate (24) is supported on this tray for closing an opening in the tray or for opening to allow goods to drop through the tray opening. The gate has a first magnet (34) supported thereon. A gate drive (22) moves the gate between the open and closed positions, and has a second magnet (32) which cooperates with the first magnet such that the magnets separate if the gate encounters an obstruction when closing. | ||||||
| 93 | Method and apparatus for transporting a product within a diffuser | US11887092 | 2006-03-23 | US20090145726A1 | 2009-06-11 | Michael John Gibbon; William Howard Yeo |
| A method and apparatus for transporting a product within a diffuser during a continuous lixiviation process. The apparatus comprises at least one screen deck for the continuous lixiviation process and at least one longitudinal transport zone, the longitudinal transport zone extending between an inlet and outlet of the diffuser. The transport zone may include a plurality of transport zones. A drive means is arranged to move the longitudinal transport zone at a first speed towards the outlet end of the diffuser and to retract the longitudinal transport zone at a second speed which is substantially faster than the first speed towards the inlet end of the diffuser, so that the transport zone drive the product towards the outlet of the diffuser. | ||||||
| 94 | VIBRATORY CONVEYING APPRATUS | US12175215 | 2008-07-17 | US20090008222A1 | 2009-01-08 | Masao Ohashi |
| A vibratory conveying apparatus has a simple structure and can align and sort parts to a desired posture. The vibratory conveying apparatus comprising a conveying chute having a first conveying surface that is connected to a driving source by a leaf spring that is reciprocatingly vibrated by the driving source. The vibratory conveying apparatus also comprises a linear return chute having a second conveying surface to return sorted parts dropped from the conveying chute during alignment or another sorting process performed on the conveying chute. A deflectable motion transmitter transmits vibration from the first conveying surface of the conveying chute to the second conveying surface of the return chute. | ||||||
| 95 | Device for Conveying Tablets | US12134599 | 2008-06-06 | US20080307757A1 | 2008-12-18 | Ralf Heim; Wolfgang Krahl; Michael Kronawitter; Rolf Armbruster; Bernd Geiselhardt; Joachim Noe |
| A device for conveying tablets has a lower part, an upper part with at least one guide channel for holding and conveying the tablets, and several elastic elements, arranged a certain distance apart, on each of which at least one piezoelectric vibratory element is mounted, wherein the elastic elements are arranged between the upper part and the lower part and connect the two parts together. In addition, the device has at least one control unit for exciting the piezoelectric vibratory elements and thus the elastic elements and a sorting device installed in the area of the guide channel to separate the good tablets from the bad. | ||||||
| 96 | GATELESS MODULAR CONVEYOR DISTRIBUTION SYSTEM | US11670373 | 2007-02-01 | US20070193854A1 | 2007-08-23 | Mark Eaton; Larry Martin; Dennis White |
| A conveyor distribution system 100 includes a first conveyor module 103 for receiving work product to be distributed and having an elongated pan 105. The outlet end of the first conveyor pan 105 being in registry with and at an elevation above the proximal end of a conveyor pan 107 of a second conveyor module 109 to define a discharge gap 111 between the two conveyor pans. The second conveyor 109 operable to move the work product both downstream and upstream along the second conveyor pan 107, thereby to discharge work product from either the distal or proximal ends of the second conveyor pan. A third or even additional conveyor modules may be employed for further distribution of the work product. | ||||||
| 97 | Conveyor system for two or more troughs | US11325744 | 2006-01-05 | US20060157324A1 | 2006-07-20 | Fred Chauvin; Michael Didion |
| A right angle conveyor has a first trough and a second trough to move product by reciprocating motion with the second trough at an angle to the first trough. Rocker arms and corresponding reactor springs joined to a chassis form the first and second troughs. The first trough has a motor upon the chassis, eccentric cam, and a linkage to induce reciprocating motion into the conveyor. To induce reciprocation, the first trough has a first bracket connected to a yoke upon a trunnion joined to the chassis, a yoke connected to a slave drive spring bracket, a slave spring connected to the slave drive spring bracket and to a second bracket, the slave spring connected to a second bracket beneath the second trough. The yoke has three pinned connections to permit rotation. Thus, reciprocal movement of the first trough transmits through the first bracket to the first pin, rotates the yoke upon the trunnion, moves the second pin, transmits movement to the slave drive spring bracket and the slave spring and then to the second bracket, thus moving product upon the second trough perpendicular to the first trough. In an alternate embodiment, the yoke has ball and socket connections and a trunnion upon a pivoting base so the second trough moves at any angle to the first trough. | ||||||
| 98 | Slip conveyor assembly | US11263762 | 2005-10-31 | US20060090985A1 | 2006-05-04 | Alfred Taylor; Garry MacKay |
| A slip conveyor assembly 10. 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. | ||||||
| 99 | Load singulation system and method | US10208703 | 2002-07-29 | US20030141165A1 | 2003-07-31 | Dan Reznik; Michael Wynblatt |
| A system and method for singulating loads are disclosed. The system includes a plurality of similarly configured load manipulation cells arranged to form an array. Each cell has a generally planar upper surface and an actuation system configured for operation independent of the actuation systems of the other cells. The system further includes a sensing system operable to identify the general location of loads positioned on the array and a controller configured to receive input from the sensing system and send commands to the actuation systems to singulate the loads positioned on the array. The controller is configured to process loads received in a continuous flow. | ||||||
| 100 | Apparatus for conveying articles in selected directions | US09361141 | 1999-07-27 | US06189677B1 | 2001-02-20 | Lorenz Stefan Ruf; Peter Frei; Markus Wiesendanger |
| An apparatus for advancing articles in a selected, approximately horizontal conveying direction, includes a plurality of side-by-side disposed table elements each having an upper, approximately horizontal article-supporting surface. The article-supporting surfaces together form an approximately horizontal conveying table. A first drive oscillates each table element parallel to its article-supporting surface in a motion having two motion components oriented in perpendicular, horizontal directions and a second drive vertically oscillates each table element. A first synchronizing arrangement synchronizes the horizontal oscillations in the direction of the two motion components and a second synchronizing arrangement synchronizes the vertical oscillations with the horizontal oscillations. A first adjusting arrangement adjusts the phase of the vertical oscillations with respect to the horizontal oscillations and a second adjusting arrangement individually adjusts an amplitude of the vertical oscillation of each table element. | ||||||
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