Abstract: An apparatus for feeding semiconductor chips has a structural body having grooves which serve respectively as parallel feed paths for semiconductor chips, the feed paths corresponding to respective quality levels of the semiconductor chips, the structural body being made of partially stabilized zirconia. A stopper mechanism for temporarily stopping semiconductor chips fed along the feed paths comprises piezoelectric bodies disposed in the feed paths in front of terminal walls of the feed paths. A counter mechanism for counting semiconductor chips fed along the feed paths have electrodes disposed in the feed paths near the terminal walls. The apparatus serves as a feed system for floating articles with ejected air and feeding the floated articles, and lends itself to being automatized.

Abstract: This invention relates to a conveying system (1) for rigidly interconnected parts (2), particularly on a machine tool for the further processing of semi-product parts, comprising a conveying duct (3) with at least one compressed air supply line (4a-4c) with an air flow component in the conveying direction.

Abstract: A gas floating-transporting apparatus transports a material to be treated along a predetermined direction in a thermal space so as to thermally treat the material to be treated. The apparatus includes a gas floating mechanism and a transporting mechanism. The gas floating mechanism includes a gas ejection device which expels the gas toward a portion of the material to be treated on which a floating force is acted so as to float the material to be treated, and a gas supply device which supplies the gas to the gas ejection means. The transporting mechanism includes an abutting member which abuts a trailing end of the floated material to be treated and moves along the predetermined direction, and which pushes the material to be treated by the movement thereof, whereby the floated material to be treated is moved along the predetermined direction.

Abstract: A device for conveying objects having a protuberance at their neck including a blowing chamber for blowing an air flux for driving the objects and a support rail cooperating with the objects at the protuberance. The chamber includes a body and a plate removably attached thereto. The support rail is fixed to the plate. There are at least two frame members on either side of the rail along the blowing chamber.

Abstract: A braking system is provided along one of a pair of guide rails of an air conveyor that transports plastic bottles along a pathway between the pair of guide rails. The braking system is selectively actuated to move into the pathway defined by the guide rails decreasing its width and positioning a stop of the braking system in the pathway where it will engage with bottles conveyed by the air conveyor slowing and eventually stopping the bottles.

Abstract: An air stream transfer apparatus capable of preventing particles in a transfer passage from adhering to an object to be processed and removing the particles. The apparatus includes that of a transfer face and a transfer passage partition both constituting a transfer passage, which are made of an electroconductive material and each have a thin insulating layer on the surface. A planer dust collecting electrode is opposed to an object to be processed and mechanism is provided for bringing the dust collecting electrode and the face to be cleared of dust close to each other while jetting air. A mechanism is provided for applying voltages between the transfer face and the dust collecting electrode and between the transfer passage partition and the dust collecting electrode and between the transfer passage partition and the dust collecting electrode.

Abstract: A plenum for a pneumatic conveyor of the type used for the movement of bottles and the like. The plenum comprises a central housing for receiving pressurized air, a cross block positioned within the central housing and generally spanning across its width, at least two bottle neck supports permitting bottles to be suspended from the plenum, and an air diverter to divert pressurized air from the interior of the central housing to the bottle neck supports to drive bottles along the length of the plenum. The cross block fixes the vertical positioning of the bottle neck supports to maintain the bottle neck supports in a parallel and co-planer configuration thereby helping to maintain the vertical alignment of bottles and the like suspended from the plenum and facilitating in their movement along the length of the plenum.

Abstract: A multichannel pivoting coupling between an upstream multichannel air conveyor and a downstream multichannel air conveyor includes a mechanism that can be selectively controlled to simultaneously adjust the lateral width dimensions of the slots between opposed flanges of the coupling to coincide with adjustments in the lateral width dimensions of the slots between the opposed flanges of the upstream and downstream multichannel air conveyors. The multichannel air conveyors of the type employed with the pivoting coupling apparatus convey streams of plastic bottles suspended by their neck rings in the slots and the lateral spacing between pairs of flanges that define the slots can be quickly changed over for conveying plastic bottles of different neck dimensions and different neck ring diameters.

Abstract: A object processing system is disclosed. The object processing system includes processing modules for performing process steps on objects, and hydrodynamic transport chutes coupled between the processing modules for transporting the object in a substantially touchless manner between the processing modules. Each substantially touchless hydrodynamic transport chute includes a transfer slot formed between two walls. Formed in the walls and directed into the transfer slot are support nozzles angled towards the output side of the transfer slot for creating fluid flow and fluid bearings in the transfer slot and urging objects through the transfer slot. In addition, induction nozzles are formed in the walls near the input side of the transfer slot for inducing objects into the input side of the transfer slot. A base supports the first and second walls and is grooved in substantial alignment with the transfer slot for receiving and bottom-centering objects in the transfer slot.

Abstract: Grooves for constructing transport passages 12 for transporting semiconductor chips 28 are provided (the grooves are provided in parallel to one another in a number corresponding to quality levels of the semiconductor chips 28). An air blow pipe 27 is provided at a starting end Pa of the transport passage 12 in a transport direction (direction indicated by the arrow in FIG. 7) to give the thrust for moving the semiconductor chips 28 in the transport direction. A large number of air-jetting holes 26 for floating the semiconductor chips 28 are provided through a transport surface. Especially, the air-jetting holes 26 are provided at a terminal end in the transport direction in a number larger than those for the other portions. Thus, the floating amount of the semiconductor chip 28 is maximized at the terminal end. A plurality of slits 29 are provided vertically through a terminal end wall 20a in the transport direction.

Abstract: For handling thin panes of glass or similar work pieces and products in conveyance systems, machining installations, and the like, by means of pneumatic forces, a device is proposed that is characterized by two plates (1, 2) with flat surfaces on at least one side, arranged parallel to each other at a distance (D) sufficient to hold the pane of glass (3) without contact, where the plates (1, 2) have a multitude of gas passages (4), and all the gas passages (4) of a plate (1, 2) can each be connected to a gas delivery device through one or more ducts, etc. to generate an excess pressure or a vacuum, and where at least some of the gas passages (4) are arranged in pairs opposite each other.

Abstract: An apparatus and method for the aerosolization of powders is disclosed. The invention includes a chamber in which a cloud of aerosolized powder is formed, the cloud having a relatively even distribution of powder particles. A Bernoulli tube may be used to extract powder from the powder cloud when the powder cloud reaches its equilibrium height. Adjustment of the air flow rate into the Bernoulli tube may be used to control the flow rate of powder out of the disclosed device.

Abstract: An apparatus for feeding semiconductor chips has a structural body having grooves which serve respectively as parallel feed paths for semiconductor chips, the feed paths corresponding to respective quality levels of the semiconductor chips, the structural body being made of partially stabilized zirconia. A stopper mechanism for temporarily stopping semiconductor chips fed along the feed paths comprises piezoelectric bodies disposed in the feed paths in front of terminal walls of the feed paths. A counter mechanism for counting semiconductor chips fed along the feed paths have electrodes disposed in the feed paths near the terminal walls. The apparatus serves as a feed system for floating articles with ejected air and feeding the floated articles, and lends itself to being automatized.

Abstract: A particulate object conveying device is provided, and the conveying device includes a stagnating portion. A rotor has an outer circumference having a plurality of grooves formed equidistantly about the outer circumference, the grooves being of a size and shape to hold a single one of the particles of predetermined size. The rotor rotates within the stagnating portion. A discharge path is provided for discharging the particles from the rotor.

Abstract: Apparatus includes a pneumatic conveyor for supporting the articles to be conveyed and air under pressure in the conveyor to convey the articles, wherein the conveyor includes a first elongated channel with a first hollow interior volume, a second elongated channel communicating with the first elongated channel and having a second hollow interior volume, with the communication between the first and second elongated channels including openings in the second elongated channel to permit the flow of air under pressure from the first elongated channel to the second elongated channel. Control is provided to control the amount of air flowing through the openings responsive to the density of the population of articles along the conveyor.

Abstract: A non-contact sheet handling system includes a first valve controlling air flow to a manifold and a second valve controlling air flow from the manifold to an air pan. A non-contact plate having venturis covers the air pan. In an alternate embodiment, the system includes a diffuser that diffuses air flow in the air pan. A method of using a non contact sheet handling system includes adjusting a first and second valve to set air flow to a first and second area, respectively, of the system and adjusting a third valve to set air flow to the first and second valves.

Abstract: A feeder for a sheet-fed printing press includes a feeding table having a surface which, at least in subregions thereof, is formed with through openings, over which sheets separable or singlable by a suction head are transportable against lays for aligning the sheets and through which air feedable under the sheet in the region of the suction head is dischargeable in a downward direction, the feeding-table surface having edge portions formed with a respective inclination, the edge portions defining the openings.

Abstract: A pair of concentric tubes having an inlet and an outlet with the outer tube being closed at either end and the inner tube having a plurality of holes with compound angles designed to impart a swirling motion of the air admitted into the interior of the inner mixing tube. The holes are judiciously located around the inner tube for creating a swirling pattern. The inlet of the tubes leads the dry particles of two different compositions intended to be mixed into the mixer and the outlet leads the mixture to the next station utilizing the mixture. Air admitted internally of the outer tube feed the plurality of holes and the force of the air can be controlled to control the transport of the mixed particles.

Abstract: An infeed assembly for use with an air conveyor system. The infeed assembly has a guide mechanism configured for engaging an article, such as a lightweight plastic bottle, and guiding it as it is conveyed through the conveyor system, a plurality of air jet conveyor nozzles, a plenum in fluid communication with the conveyor nozzles for forcing pressurized air through the conveyor nozzles and adjacent the guide mechanism in a manner to push the article downstream along the guide mechanism from an inlet end of the guide mechanism to an outlet end of the guide mechanism. The infeed assembly comprises an article alignment mechanism, at least one air jet infeed nozzle adjacent the article alignment mechanism, and at least one conduit providing fluid communication between the plenum and the infeed nozzle. The article alignment mechanism is positionable adjacent the inlet end of the guide mechanism and is configured for directing the article into the inlet end of the guide mechanism.

Abstract: A water slide for semiconductor wafer processing minimizes water usage by confining water to flow within spaced-apart grooves in the absence of a wafer. When a wafer passes down the water slide, a meniscus of water formed above the grooves is spread out to occupy the space underneath the wafer and prevent it from contacting the water slide as the wafer travels down the water slide.

Abstract: The method and apparatus of this invention include first and second sets of louvers which extend through the conveying surface for creating downstream and upstream force vectors of air which serve the dual function of creating a low pressure area under unstable, lightweight, upright containers to hold them in an upright position while simultaneously enveloping the side walls of the containers in vertical columns of air which moves along a substantially vertical force vector to further assist in holding them in an upright position as they move from an upstream location to a downstream location along the surface of an air conveyor. This is accomplished by the use of lance and coined louvers arranged in a predetermined pattern to provide both upstream and downstream force vectors of air as well as substantially vertical force vectors of air. Alternatively, an array of trapezoidal louvers can be used in conjunction with an interspersed array of vertical openings in a deck plate to provide the same dual function.

Abstract: A device for contact-free sheet guidance in a sheet-fed printing press, having a sheet guiding surface and an air guiding surface directed obliquely away from the sheet guiding surface, includes at least one blast air nozzle disposed in the sheet guiding surface and having a cross section formed as a ring slot sector having a center of curvature located within an opening of the blast air nozzle formed in the plane of the sheet guiding surface.

Abstract: An automated method of manufacturing an air conveyor panel. The panel includes an array of holes used as air nozzles. The method generally includes the steps of mapping with a computer the desired location, shape and axial orientation of cavities to be machined in the panel, sequentially directing a laser beam at each desired location of cavities also with the computer; sequentially laser ablation drilling cavities by photothermally vaporizing a portion of the panel at each desired location. A major portion of the cavities consists of holes piercing the panel for use as air nozzles. The laser beam has an intensity sufficient to photothermally vaporize a portion of the panel at each desired location. In a preferred embodiment, the panel is constructed of steel and has a thickness of about 0.1 to 1.2 cm while the nozzles have a diameter of 3/4 mm to 2 mm.

Abstract: A device for conveying empty bottles in a hanging arrangement applicable to the conveyance of bottles made of plastics material, the bottles including a flange in the region of their neck, the flange being partially introduced and guided in lateral channels whose open sides face each other, the flange resting on the lower edge of the respective channel and being in a position to slide along the channels, outlets for insufflating pressurized air from lateral ducts having been provided inside the channels. Above the path traced by the necks of the bottles extends a duct which opens onto the path at a slot and is connected to a suction device that generates a negative pressure.

Abstract: A guide is employed on air conveyors of the type that suspend conveyed objects from an intermediate enlargement, for example, conveying plastic bottles by suspending the bottles from their neck rings, where the guide limits the upward movement of the bottles conveyed by a conveyor system preventing the bottles from becoming wedged in the air conveyor and jamming the flow of bottles through the air conveyor while permitting each of the bottles conveyed to swing freely forwardly and rearwardly from their neck rings as the bottles are conveyed through the conveyor.

Abstract: An air conveyor includes guides for stabilizing articles during conveyance and a plenum with apertures for providing pressurized air. In the preferred embodiment, the air conveyor also includes opposed spacers defining passages having a closed end and an open end. The passages are in fluid communication with the apertures of the plenum for directing streams of pressurized air through the open ends at the articles in a downstream direction to propel the articles. In another embodiment, channels defined in support structure for the guides form part of passageways for directing streams of pressurized air at an inclined and downstream angle to propel the articles. The guides are removable to allow the conveyor to be adapted to different sized and shaped articles. The air conveyor may also include an additional plenum and additional opposed spacers associated with the plenum for propelling the articles downstream.

Abstract: A decoupling mechanism is provided for passively or actively decoupling an exhaust from a modular air transport system by diverting an amount of air exiting a channel in a first module in a direction other than the process direction through use of the Coanda effect. This decouples the amount of air from a downstream module. This is achieved by providing edge surfaces of the channel outlet, formed on top and bottom plates of the first air module, so that one of the two edge surfaces has a larger radius of curvature than the other. An air vent formed by a gap between the other of the edges and the second module is also provided to assist in the Coanda effect.

Abstract: An air conveyor transitional section connects an upstream air conveyor section to a downstream air conveyor section that is not collinear with the upstream air conveyor section. The air conveyor transitional section includes a pair of elongated members having opposed inner edges and upper surfaces adjacent the inner edges. The inner edges of the elongated members are laterally spaced to define a slot that extends in a downstream direction of the air conveyor. The upstream air conveyor section, the transitional section, and the downstream air conveyor section are all configured for conveying containers in the downstream direction. Each container has a neck ring with an outer diameter dimension. The inner edges of the elongated members are laterally spaced by a distance smaller than the container neck ring outer diameter dimension so that the upper surfaces provide slidable support for the container neck rings.

Abstract: An air conveyor apparatus is adapted for conveying bottle containers having a neck ring with an outer diameter dimension. The conveyor apparatus includes a first air conveyor section and a second air conveyor section. The first air conveyor section has a first conveying slot extending longitudinally therethrough in a downstream direction. The first conveying slot is defined by a first pair of mutually opposed, laterally spaced, substantially horizontal flanges. The first pair of flanges are laterally spaced by a distance smaller than the outer diameter dimension of the container neck rings so that the containers can be conveyed with the neck rings sliding in a friction engagement along the first pair of flanges as the containers are conveyed through the first air conveyor section. The second air conveyor section has a second conveying slot extending longitudinally therethrough in the downstream direction.

Abstract: In a sheet-fed printing press, a contact-free sheet guiding device having a sheet guiding surface is provided including at least one blast air nozzle disposed in the sheet guiding surface and having an air guiding surface directed obliquely downwardly with respect to the sheet guiding surface, the air guiding surface defining a cross section of the blast air nozzle disposed obliquely downwardly from the sheet guiding surface, the blast air nozzle being disposed so that a flow direction of blast air emerging from the blast air nozzle encloses, with the sheet guiding surface, a steep angle directed against the sheet from below, the blast air flow having a vertical directional component which is greater than a horizontal directional component thereof.

Abstract: A device for guiding a sheet as it is conveyed through a deliverer or between printing units of a sheet-fed printing machine is provided. The sheet guiding device includes a guide surface which has a plurality of openings therein and a housing which is arranged below the guide surface and which together with the guide surface defines a flow duct. The guiding device also includes a air system which is in fluid communication with the flow duct. At least one flexible hollow seal member is arranged in the flow duct and is adapted such that it can be selectively filled with a fluid medium which expands the seal member into a sealing position wherein it seals off a predetermined portion of the openings in the guide surface from the air system.

Abstract: In a process of making gas laid products by entraining particles at least partially coated with a binder in a gaseous stream, passing the stream through a forming chamber and through a permeable collecting surface where the particles build up to form a product like fiber glass insulation, this invention prevents particles from contacting and building up on the walls of the forming chamber and causing wet spots in the finished product by maintaining a high velocity, high pressure layer of gas close to the exposed surface of the walls of the chamber and moving in the general direction of the gaseous stream. This is accomplished by apparatus including a plurality of plenum boxes forming the walls of the forming chamber with the surface exposed to the gaseous stream having gas directing openings therein. Also, an improved method of applying the binder to the particles is disclosed.

Abstract: A single-to-multiple line conveying system for conveying unstable articles, such as plastic bottles, having a neck ring. The unstable articles are neck ring supported and are conveyed in single file along a first path established by a first guide unit to second paths established by a plurality of second guide units through a third path established by a third guide unit having a displaceable section to align the third path with successive ones of the second paths by an electric motor actuated in response to an article counter. The unstable articles are air conveyed along the first and second paths with continuous movement of the unstable articles along the third path being effected by a continuously rotating star wheel that spaces the unstable articles and urges the unstable articles toward the displaceable section that includes a mechanical unit, having a continuously moving chain with article engaging finger units thereon, and an air unit for urging the unstable articles from the third path.

Abstract: A paper handling system for air mediated transport of sheets or pages of paper is disclosed. Microelectromechanical valves and sensors are embedded in a dielectric substrate for tracking and controlling paper transport. These microelectromechanical systems can be batch fabricated using resin impregnated dielectric laminates having photolithographically formed circuitry for electrical connections. Use of high speed sensor and valve control systems permit dynamic adjustments to paper trajectory during paper transport.

Abstract: An air conveyor which includes guides for stabilizing articles during conveyance and a plenum with apertures for providing pressurized air is provided. In the preferred embodiment, the air conveyor also includes opposed spacers defining passages having a closed end and an open end. The passages are in fluid communication with the apertures of the plenum for directing streams of pressurized air through the open ends at the articles in a downstream direction to propel the articles. In another embodiment, channels defined in support structure for the guides form part of passageways for directing streams of pressurized air at an inclined and downstream angle to propel the articles. The guides are removable to allow the conveyor to be adapted to different sized and shaped articles. The air conveyor may also include an additional plenum and additional opposed spacers associated with the plenum for propelling the articles downstream.

Abstract: A conveyor system for conveying an article has an upper portion and a lower portion below the upper portion. The conveyor system comprises a guide mechanism configured for engaging the upper portion of the article in a manner so that the article is suspended from the guide mechanism. The guide mechanism is further configured for guiding the article in its suspended orientation along a conveyor pathway defined by the guide mechanism, the conveyor pathway having a lateral curve. The conveyor system further includes at least one air nozzle for connection to a source of pressurized air. The air nozzle is oriented for directing a stream of air in a direction generally adjacent the lateral curve and in a manner such that the stream of air blows against the lower portion of the article when the article is moving along the lateral curve of the conveyor pathway to counter inertial forces which tend to cause the article to deviate from the conveyor pathway.

Abstract: The apparatus for handling and operating on an article includes a flexible member having a working surface and at least one fluid orifice which pass through the flexible member and terminates in outlets on the working surface. The flexible member is a web made of a plurality of stacked layers. Fluid supplied to the working surface through the orifices act on articles placed in close proximity to the working surface.

Abstract: An air-conveying apparatus for moving articles along a path of travel at varying speeds comprises in combination a pneumatic conveyor for supporting the articles, a fan operatively coupled to the conveyor to provide air under pressure to the pneumatic conveyor to convey the articles there along, a damper to restrict the flow of air through the fan, and a controller responsive to a signal to vary the positioning of the damper and thereby vary the flow of air through the fan and consequently vary the speed of the articles being conveyed.

Abstract: Method for pneumatically braking sheets in a delivery of a sheet-fed rotary printing press by means of blast air directed opposite to a sheet-transport direction for forming an air flow for braking the sheet includes adjusting the air flow for braking the sheet to a state of equilibrium between energy of the air flow acting upon the sheet and kinetic energy of the sheet, the sheet being carried in the region of a braking path in a contact-free manner by the air flow, and device for performing the method.

Abstract: A neck guide air conveyor having passageways formed above the support structure for the neck guides to direct pressurized air over the collars of articles to propel the articles. The passageways are connected to a source of pressurized air and direct the pressurized air at an inclined and downstream angle over the collars of the articles from a point above the support structure for the neck guides. The passageways may be partially formed of a plurality of channels integrally molded in the support structure for the neck guides. The passageways may also be partially formed by a spacer having a plurality of slots open toward the articles where the spacer is placed above and adjacent the support structure for the neck guides.

Abstract: A fluid transport system for moving flexible objects includes a conveyor configured to direct fluid flow against opposite sides of flexible objects. A sensor unit senses motion state of flexible objects, and a motion analysis unit is connected to the sensor unit to calculate relative or absolute movement of flexible objects based on the motion state. Overall movement, position, velocity, and orientation of flexible objects can be determined, as well as internal movement of the object attributable to flexure or edge curling. A motion control unit is connected to the motion analysis unit to modify fluid flow directed against opposite sides of flexible objects, accurately adjusting motion of flexible objects.

Abstract: A height adjustable conveyor system conveys articles between different heights as needed. The conveyor system includes guides that support the neck rings of articles to be conveyed, and the guides are mounted on an air conveyor having multiple sections so that the guides are caused to be flexed by different movements of the air conveyor sections. The air conveyor has pivotably coupled first, second, and third sections with the first section being vertically adjustable with respect to the third section and the second section being between and tiltable with respect to the first and third sections to thereby flex the guides as necessary to readily effect article height variations as needed between the input and the output of the system. Relative movement between the three sections of the air conveyor is effected by a lever pivotably connected with a fixed support and the first section of the air conveyor with the lever being actuated by a crank.

Abstract: An air conveyor conveys bottle containers, the conveyor being constructed as a channel having a general, inverted-U-shaped configuration. The channel has a plurality of air ducts extending through the walls of the channel which communicate with a source of pressurized air to eject streams of air against the bottle containers being conveyed. The streams of air ejected from the ducts impinge upon the bottle containers to push the containers along the conveyor in the direction of travel. Each air duct has a first port opening, which emerges from the sidewall thereof below the pair of flanges, and a second port opening, which emerges from the sidewall thereof above the pair of flanges. The first port opening is a jet port configured to eject a stream of air against the bottle containers, and the second port opening is a vacuum port configured for drawing air from the channel.

Abstract: An air conveyor conveys a stream of bottle containers along an input path and then selectively diverts bottles from the input stream into one of a plurality of output paths. The invention includes a diverter plate positioned between the input path and the output paths which is moveable for selectively connecting the input path with one of the plurality of output paths.

Abstract: A deck plate support structure for an air conveyor includes two major structural members; namely, an upper support member and a lower support member. The upper and lower support members are positioned below the deck plate of the air conveyor and are secured to the underside thereof. The lower support members are connected to flanges or other connecting structure of the plenum assembly. The upper support members are channel-shaped structures which attach to corresponding lower support members. A plurality of fasteners attached to the underside of the deck plate pass through slots in the upper support members and holes in the lower support members enabling the entire deck plate support structure to be attached to the underside of the deck plate. The lower support members include a plurality of openings to allow free passage of pressurized air within the plenum assembly to flow unimpeded through louvers positioned thereover.

Abstract: An air handling system comprising a track having a lower extent for supporting an object to be conveyed by the flow of pressurized air and an upper extent having a plenum chamber for receiving pressurized air and for directing it in contact with the object to be conveyed for effecting movement of the object. The track also has air-directing louvers between the upper and lower extents and an aperture in the upper extent. An impeller is mounted adjacent to the aperture of the upper extent of the track. A tapering input duct with an inlet end and a circular outlet end are mounted adjacent to the impeller with a circular screen in the outlet of the duct adjacent to the impeller. The screen has a centrally disposed hole. A baffle is mounted adjacent to the screen. The baffle includes a plurality of pie-shaped segments each with an arcuate outer edge overlying the periphery of the screen and with V-shaped interior edges with a hole. The segments are similarly configured.

Abstract: A component supply apparatus includes a component feeding device for feeding components to a component feeding path, with the components arranged in a row while the components are being agitated by air, and a path forming member having a curved path extending from the component feeding path to a component supply position, for guiding the components fed from the component feeding path to the component supply position by changing a direction of each of the components by a predetermined angle. A plurality of air supply holes are provided at plural portions of the curved path for feeding the components fed to the curved path to the component supply position.

Abstract: A fluid conveyor effects movement of articles, such as cans, along a predetermined path adjacent to a thin deck plate. The thin deck plate has fluid distribution areas formed therein with each fluid distribution area having an aperture formed therein, after which a flat tab section is formed that is inclined with respect to the remainder of the plate. Each tab section therefore has an aperture therein through which fluid from a fluid supply unit is injected under pressure into the article path adjacent to the plate in a direction and angle determined by the orientation of the tab sections to effect movement of articles along the article path. Each tab section has a portion integral with the remainder of the plate and side and end edge portions unattached to the remainder of the plate but sufficiently contiguous thereto to prevent passage of air between the edge portions and the remainder of the plate.

Abstract: A method and apparatus for the feeding and accumulation of bottles in an air conveyance system, which has a swing-arm air conveyor with a flexible guide joint which allows the efficient conveyance of bottles from a single-lane source of bottles to a plurality of recipient air conveyors for accumulation and handling. The swing-arm air conveyor also includes a second flexible guide joint which provides for the delivery of the bottles to the recipient air conveyors in a direction parallel to the direction of the single-line source of bottles. The apparatus and method is also used for the conveyance of bottles from a plurality of feed air conveyors to a single-lane recipient air conveyor. The flexible guide joint allows the swing-arm air conveyor to be pivoted while still maintaining a continuous chamber through which bottles are conveyed.

Abstract: A damperless, controlled speed, coverless, isometric air conveyor and method for conveying lightweight containers en masse or individually at a controlled speed includes a first set of louvers extending through a conveyor surface from a common plenum at an incline to a conveying surface so that the air passing through the louvers has a downstream force vector of a first magnitude. A second set of louvers extend through the conveyor surface from the common plenum at an incline to the conveyor surface so that the air passing through the louvers has an upstream force vector of a second magnitude which is less than the first magnitude thereby creating a vector force differential in the downstream direction at any given location under the bottom of each container to cause movement of the containers in the downstream direction.