| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 161 | Work Carrier Apparatus in Assembly Line | US12083972 | 2006-10-06 | US20090133989A1 | 2009-05-28 | Kaname Takahashi; Yoshiharu Hatsusaka; Mikiya Fukuda |
| (Object) The object of the present invention is to improve the productivity and make the assembling operation easier in a carrier apparatus for carrying a work while performing an assembling operation by making effective use of an inside region, even in the case where a conveyor line is provided in the form of a circling route.(Means of Solution) In a free flow type conveyor line (1) in which a work is loaded on a pallet (2) having a floor surface which travels substantially at the same level as a floor surface (5) for operation, a horizontal curved section (3) is provided in a section of the line (1), and the pallet (2) is divided into a first, a second and a third divided pallet elements (2A, 2B, 2C) in the carrying direction. The respectively divided pallet elements (2A, 2B, 2C) are mutually turnable in the horizontal plane by connecting the first divided pallet element (2A) to the second divided pallet elements (2B), and the second divided pallet element (2B) to the third divided pallet elements (2C), respectively through vertically extending pivot pins (9). | ||||||
| 162 | CARRIAGE-TYPE CONVEYANCE DEVICE | US11913205 | 2006-07-27 | US20090090598A1 | 2009-04-09 | Jiro Nakamura; Nobuhiro Hayashi |
| A carriage-type conveyance device using a carriage having a vertically movable object-supporting base that is controlled by a cam rail on the floor side, in which a turntable for changing the direction of the carriage has a low-floor structure. In the carriage-type conveyance device, the object-supporting base that is vertically movable between a lowered position and a lifted position is placed on a conveyance carriage (1), a cam follower roller vertically moving in association with the movement of the object-supporting body is provided at the bottom of the conveyance carriage (1), and a cam device (58) for pushing up the cam follower roller and a work section (3A) in which the object support base is supported at the lifted position are provided in a traveling route of the conveyance carriage (1). The conveyance device further has the turntable (7) placed in a traveling route on the downstream side of the work section (3A) and changing the direction of the conveyance carriage (1), and also has a means for holding at the lifted position the object-supporting body of the conveyance carriage (1) from at least the time immediately before the object-supporting body enters into the turntable (7) until it has exited from the rotated turntable (7). | ||||||
| 163 | Integrated conveyor system for moving loads, in particular vehicles, along a production line | US10500095 | 2002-12-23 | US07497167B2 | 2009-03-03 | Massimo Bellezza |
| The integrated conveyor system has a number of independent powered modules (11), each having a pair of rails (2, 3), and powered belt (4) stretched in the transverse space defined between the pair of rails and forming a continuous support and guide structure and along which run a number of trucks are moved by the belt of each module along the rails. The conveyor system also includes a number of modules having no powered belt, a push module (116) having a powered belt and a brake module (11c) having a nonpowered belt; the trucks having stop means for forming, a train of mutually contacting trucks between the push module and the brake module, and pushed by the powered belt of the push module. | ||||||
| 164 | APPARATUS FOR TRANSPORTING CONTAINERS TO AT LEAST ONE PROCESSING STATION | US11831120 | 2007-07-31 | US20080289931A1 | 2008-11-27 | Josef Veile; Rupert Miksch |
| An apparatus for transporting containers to at least one processing station, in particular a filling and/or sealing station, having a number of container carriers that accommodate the containers and having two parallel guides spaced apart from each other and extending in the transverse direction, which are used for the advance and return of the container carriers and have turnaround devices at their ends that perform the function of switching the container carriers from one guide into the other guide; pinions are also provided for transporting the container carriers and are situated between the guides and engage the container carriers. The turnaround devices each have arc guides that adjoin the ends of the two guides and are connected to them and that also transition in the arc from one guide to the other guide. | ||||||
| 165 | UPPER AND LOWER PATH SWITCHING DEVICE FOR TRAVELING BODY FOR TRANSPORTATION | US12016420 | 2008-01-18 | US20080173500A1 | 2008-07-24 | Yoshio Shimizu; Teruaki Nabeta |
| The present invention easily improves the accuracy of connection level alignment between an elevating guide rail and a fixed side guide rail in a path switching device which switches vertically a traveling path of a conveyance carriage or the like via an elevating guide rail, and in an upper and lower path switching device for a traveling body for transportation, including an elevating guide rail supported horizontally by an elevating body, upper fixed guide rails to be connected to the elevating guide rail at a lifted position of the elevating body, and lower fixed guide rails which are connected to the elevating guide rail at a lowered position of the elevating body, the elevating guide rail is supported movably vertically in a predetermined range with respect to the elevating body, and receiving members for receiving the elevating guide rail at a level at which the elevating guide rail is connected to the lower fixed guide rails before the elevating body reaches a lower limit thereof are provided. | ||||||
| 166 | Multiple loader adapted to operate as a magazine for vertically arranged panels | US11124897 | 2005-05-09 | US07396200B2 | 2008-07-08 | Luigi Reguzzi |
| A multiple loader, also adapted to operate as a magazine for storing vertically arranged panels, comprises, at a front head portion thereof, a step-by-step pushing device including a carriage driven by pneumatic cylinders causing the carriage to slide with a rectilinear reciprocating horizontal movement, to provide a pushing action on a first of a series of separating elements, arranged at a top sliding platform. | ||||||
| 167 | Guidance system for pusher plate for use in pusher furnaces | US11418580 | 2006-05-04 | US20070128006A1 | 2007-06-07 | Anthony Tenzek |
| A pusher plate for use in a pusher furnace includes a shaped guidance groove in its lower surface which preferably has a bow-tie shape with a narrower central section and wider ends proximate the leading and trailing faces of the plate. The groove receives therein a guide rail which is disposed intermediate a pair of slide rails upon which the plate slides. The shape of the groove allows the plate a small amount of lateral rotation to minimize jamming during travel. Adjacent plates pivot upon contact with each other to automatically adjust their orientation during travel through the furnace. The leading and trailing faces of the plates thus contact one another over a larger surface area to reduce damage to the plates by reducing the pressure therebetween. | ||||||
| 168 | Conveyance system | US10538146 | 2003-12-19 | US20060060450A1 | 2006-03-23 | Yoshiharu Iwai; Masanori Nonaka |
| A conveyance system, wherein dividable horizontal conveyance units are connected to each other through joint plates and a support post and rails of the horizontal conveyance units are connected to each other without any step and clearance. A joint conveyance carriage assembly is conveyed by a force applied thereto from annular chains of the horizontal conveyance units through chain presser plates. When the rearmost one of the chain presser plates leaves the annular chain of the horizontal conveyance unit, the chain presser plate of the headmost first conveyance carriage reaches the annular chain of the horizontal conveyance unit and the joint conveyance carriage assembly is continuously conveyed. | ||||||
| 169 | Conveying device comprising a packages carrier | US10240864 | 2003-01-17 | US06752258B2 | 2004-06-22 | Werner Ludwig; Josef Stannek |
| Disclosed is a device for intermittently conveying packages which are conveyed in a first moving direction in package carriers (2) in a first processing plane in positions underneath various treatment stations and are conveyed back in a second return motion plane in a second moving direction that is parallel in relation to the first moving direction, whereby a conveying cycle is formed. The aim of the invention is to enable such a device to be efficient, compact and be operated using simple devices. According to the invention, the respectively superimposed ends of the essentially horizontal first conveyor (19) in the first processing plane and of the essentially horizontal third conveyor (12) in the second return motion plane are connected to one another for forming the conveying cycle by means of vertically acting second and fourth lifting conveyors (9, 15). Each conveyor (9, 19, 12, 15) has a separate drive (22-24). A third loading plane is arranged between the first processing plane and the second return motion plane. The three planes are arranged in an essentially horizontal manner. Each package carrier (2) is constructed in an even manner and is held in a horizontal position by means of the conveyor cycle. Means for loading and unloading the packages into and/or from the package carriers (2) are provided in the region of the third loading plane in a loading direction which is parallel in relation to the first moving direction of the packages. | ||||||
| 170 | OBJECT DISPENSING APPARATUS | US10099728 | 2002-03-15 | US20030173373A1 | 2003-09-18 | David Edward Bliek; Grant Duane Beasley |
| An apparatus for controlled dispensing of a plurality of objects, the apparatus comprising a housing and frame assembly, a track assembly comprising a pair of parallel spaced apart tracks shaped in a convoluted closed loop shape to optimize space and volume, and a plurality of tubes disposed within the track assembly and able to move within the tracks. A dispensing assembly has a pneumatic ram for ejecting an object placed in the tube, and an indexing assembly for advancing the tube after ejection of its object. A ratchet assembly permits one directional movement of the tubes and prevents tubes from moving backward to the dispensing assembly. At least one assist advancing assembly has a pneumatic ram for pushing the tubes within the track in one direction. Photosensors used in conjunction with a microprocessor controller enable the apparatus to detect low object load, speed and system error. A user display provides for control of the apparatus. | ||||||
| 171 | TRANSFER SYSTEM FOR CONVEYING LCD GLASS SUBSTRATE | US09959720 | 2001-11-06 | US20030168313A1 | 2003-09-11 | Tsutomu Hiroki |
| A system for conveying LCD glass substrates 100 traveling between processing devices 210, 220 and 230 and conveying LCD glass substrates. The conveyor system 100 includes an upper conveyor 110 for conveying LCD glass substrates in the feeding direction between processing devices, a lower conveyor 120 arranged so as to form a multi-storied structure together with the upper conveyor for conveying LCD glass substrates in the return direction between processing devices, and a vertical conveyor for vertically conveying LCD glass substrates from the upper conveyor to the lower conveyor or vice versa. The vertical conveyor is provided with a plurality of conveyor tables, of which each is able to support the a LCD glass substrate from the underside thereof and moving it up and down linking to each other. One conveyor table forms a part of the upper conveyor while the another conveyor table forms a part of the lower conveyor. Being constructed like this, the conveyor system 100 according to the invention is able to convey even an enlarged LCD glass substrate with ease, and it comes to not only contribute to reduction in construction cost but also to additionally function as a buffer for LCD glass substrates. | ||||||
| 172 | Method and apparatus for replacing pallet cars on a traveling grate machine | US09718683 | 2000-11-22 | US06523673B1 | 2003-02-25 | Edward A. Fenton, Jr. |
| An apparatus and method for changing pallet cars on-the-fly in a traveling grate machine which includes spaced-apart drive sprockets positioned at one end of intermediate curved end portions for engaging and driving the supporting rollers of the pallet cars and for causing movement of the pallet cars along the top and bottom strands of the machine. The apparatus for changing pallet cars includes first hinged sections of outer guide rails located at the drive sprockets adjacent to the bottom strand of guide rails. The first sections of hinged guide rails are moved from a locked position to an open position whereby in the open position a selected pallet car requiring replacement is removed from the drive sprocket means and outer guide rails as the drive sprocket continues to turn. Second hinged sections of outer guide rails arc provided at the top of the drive sprocket adjacent to the upper strand of guide rails. The second hinged sections of outer guide rails are selectively moved from a locked position to an open position whereby in the open position a replacement pallet car is inserted on the sprocket means and against the inner guide rails in a position previously occupied by the aforementioned first pallet car as the drive sprocket rotates. The second hinged sections of outer guide rails are then moved back into the locked position. The procedure is repeated as necessary to replace damaged or otherwise worn pallet cars requiring maintenance. | ||||||
| 173 | Processing system for processing piece goods | US09673690 | 2000-11-20 | US06450319B1 | 2002-09-17 | Walter Reist |
| The processing system serves for processing piece goods (e.g. containers or printed products). It comprises a conveying system with a closed rail track system optionally having switch points (SV, SZ) and a plurality of conveying/holding means displaceable in one direction on the track system independently of one another and it further comprises devices (A) for loading conveying/holding means with items or groups of items to be processed, devices (V) for processing items or groups of items and devices (B) for unloading items or groups of items from conveying/holding means. An entry control means and upstream thereof a collecting section are allocated to each device (A, B, V). The entry control establishes the spatial orientation and the temporal sequence of the conveying/holding means or of the items as required by the device. If necessary, the conveying/holding means are retained along the collecting section before the entry monitoring. The devices (A, B, V) with entry control means allocated thereto and switch points (SV, SZ) are organized separately or in groups in autonomous stations (S) with station-internal control means, which control, independently of other stations (S), at least the function of the devices (A, B, V) and their entry control and/or the function of the switch points (SV, SZ) as well as conveyance of the conveying/holding means through the station. The processing system can additionally comprise a central control unit which determines guidelines for momentary throughputs for autonomous stations (S) according in particular to registered filling states of the collecting sections. | ||||||
| 174 | Container conveyor system | US09513843 | 2000-02-25 | US06450238B1 | 2002-09-17 | Aldo Conti |
| The system comprises at least one conveyor tract along which a line of containers is made to move forward by a pusher action applied at one end of the line. A plurality of transport elements can be aligned on the conveyor tract and are capable of receiving at least one respective container of the line, with the containers separated from each other. The transport elements are capable of cooperating with each other in thrust transmission, so that the pushing action applied to the transport elements produces the forward movement of the line of containers while the containers themselves are kept separate from each other. | ||||||
| 175 | Conveyor system | US10068390 | 2002-02-06 | US20020117378A1 | 2002-08-29 | Robert Buchi; Daniel Hinder |
| In a conveyor system a magnet element row aligned at least partly parallel to the conveyor path is arranged in a driving region to serve as a stationary drive means and conveyor elements comprise conducting parts (4) and are movable along the conveyor path through the drive region. The magnet element row (11) which for example consists of alternatingly orientated permanent magnets produces a magnetic field locally changing along the row (11). The conducting parts (4) are arranged on the conveyor elements (2) such that in the drive region they are positioned in the effective range of the magnet element row (11). A relative movement between the magnetic element row (11) and the conveyor element (2) produces eddy currents in the conducting parts (4) effecting forces counteracting the relative movement. The relative movement is for example produced by annular magnet element rows (11) which are revolvingly driven and of which a part moves parallel to the conveyor path being in interaction with the conducting parts (4) of conveyor elements (2). The drive means works without contact and permits jolt-free conveyance in particular when applied in connection with conveyor elements being moved along the conveyor path independently of one another and with varying speeds. | ||||||
| 176 | Aseptic filling device | US09709218 | 2000-11-09 | US06431227B1 | 2002-08-13 | Robbert Hendrik Ter Haar |
| A device for filling containers with free-flowing products under aseptic conditions comprises a conveyor system for intermittently conveying the containers along a conveyor path past appropriate filling stations in separate compartments inside a housing. The conveyor system comprises a guide assembly for guiding at least two carriers which interact with one another in order to position and retain containers, and a pusher mechanism with a chainless drive for displacing the carriers in the guide assembly each time, a container guide, which is arranged beneath the conveyor path of the containers, for supporting the containers, and a blocking device for temporarily blocking the movement of the carrier which is situated at the outlet of the device during operation. | ||||||
| 177 | Conveyor device and corresponding transport means | US09554539 | 2000-05-12 | US06425478B1 | 2002-07-30 | Jürg Eberle |
| The invention relates to a conveyor device (1) comprising a plurality of individually movable transport means (2) which can be driven adjacent to one another by the front sides (2b, 2c) thereof, and which are guided by means of a guiding rail (4). The inventive device also has a driving means (3) which actuates the transport means (2) in a curved section (6f) of the guiding rail (4), whereby the driving means (3) and the transport means (2), said transport means being successively conveyed in a contactless manner, positively interact with one another in order to convey transport means (2) in a curved section (6f). | ||||||
| 178 | System and method for feeding of returnable containers | US09673839 | 2000-01-05 | US06401902B1 | 2002-06-11 | Roy Olson |
| Collecting system for packagings (18), preferably returnable packagings, comprising a feeding-in device (10) for the packagings, which feeding-in device is arranged at a first location, an automatic transport device being arranged to automatically transport the packagings from said feeding-in device (10), in a transport canal (12), to a demolition and/or collecting device (14, 16) which is arranged at a second location, said second location being situated at some distance from said first location. | ||||||
| 179 | Power transmission device for transmitting thrusting forces | US269237 | 1999-06-04 | US6155405A | 2000-12-05 | Dieter Siebenmann; Werner Honegger |
| A transmission system for transmitting pushing forces along straight and curved paths includes a guide channel (1) and a line of transmission members (10) arranged in the guide channel. The transmission members are acted on by a drive. The transmission members (10) are in contact with each other at end contact faces where the contact faces are formed with mating ring-shaped ridge (11) and a ring-shaped groove, respectively. The ridge (11) and groove (12) are matched to each other such that they are positioned inside each other when the members are arranged coaxially and contacting each other. The cross sections of the ridge (11) and groove (12) are such that ridge and groove are pivotable in relation to each other when engaged. A line of such transmission members arranged in a straight line and pressure loaded forms a buckling-resistant bar which does not exert forces on straight regions (1.2) of an enclosing guide channel (1). In curved guide channel parts (1.1), the transmission members (10) are pivoted in relation to each other, the pivoting movement being a guided one and the pushing force is transmitted through more than a contact point in the pivoted arrangement. | ||||||
| 180 | Apparatus for transporting containers intermittently | US373319 | 1995-03-20 | US5582220A | 1996-12-10 | Helmut Schott |
| An apparatus for transporting containers intermittently. The apparatus has two guide rails which extend in a horizontal plane. Container carriers, which have receiving elements for the containers are disposed on the guide rails. The container carriers are fed by means of gearing embodied on them and transport gears embodied on the guide rails. Transfer devices and format changer devices are disposed on the ends of the guide rails. The output of the apparatus can be increased by subdividing it into continuous and intermittent feed zones. | ||||||
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