Abstract: Methods for storing and moving adhesive particulate to an adhesive melter are disclosed. An interior space of a supply hopper is filled with adhesive particulate. A transfer pump is actuated to generate a vacuum at an inlet of the transfer pump to actuate removal of the adhesive particulate from the supply hopper. A consistent minimized depth of the adhesive particulate located directly above the inlet is maintained with a shroud located within the interior space of the supply hopper. In addition, adhesive particulate can be received in an interior space of a container. An open space is maintained within the interior space of the container proximate the pump inlet, where the open space entrains gas to be drawn by the transfer pump. The transfer pump can be actuated to generate a vacuum at the pump inlet to cause removal of the adhesive particulate from the container.

Abstract: A pedestal for use with an adhesive melter adapted for melting adhesive particulates includes a support structure, a hopper, and a flow tube. The support structure has an upper portion adapted to support the adhesive melter. The hopper is connected to the support structure and positioned generally below the upper portion of the support structure. In addition, the hopper has an opening adapted for receiving adhesive particulates for storage therein. The flow tube has a first end portion and a second end portion. The first end portion is fluidly connected to the hopper, and the second end portion is fluidly connected to the adhesive melter. Furthermore, the flow tube is configured for moving adhesive particulates from the hopper to the adhesive melter via an air pressure differential created between the first and second end portions of the flow tube.

Abstract: The vortex pneumatic conveyance apparatus of the present application creates a vortex from blown and/or pressurized air rotating along the inner wall of an outlet tube to convey particles through a vacuum created within the center of the outlet tube at a relatively high flow rate and pressure. Without the blown and/or pressurized air molecules taking up space and colliding with the particles in the center of the outlet tube and because of the strong suction created by the vortex of air rotating along the inner wall of the outlet tube, the efficiency of the vortex pneumatic conveyance apparatus of this application is improved relative to well-known pneumatic conveyors in which air merely pushes the particles within an outlet tube.

Abstract: The invention relates to a device for creating and conveying a gas-powder mixture having a powder receiving space (3) that is connected to a vacuum creation device via a vacuum line (19) that discharges to the upper region of said powder receiving space. A reduced pressure in comparison to a mixing chamber (7) can be created within the powder receiving space (3), and thus a gas flow directed against the powder flow direction within a powder supply channel (6).

Abstract: The invention relates to a plant for the transport of granular material comprising at least one container for granular material to be transported, at least one receiver-meter group, at least one conveyance duct, depressurization-pressurization means arranged to suction/inject a gaseous medium from/into said at least one container, and at least one vacuum duct between a receiver-meter group and said depressurization-pressurization means, thereby creating a flow of said granular material and said gaseous medium in said at least one conveyance duct and a flow of gaseous medium between said at least one receiver-meter group and said depressurization-pressurization means.

Abstract: Method in a pneumatic material conveying system, such as a waste conveying system, which conveying system comprises at least one input point (60) of material, more particularly of waste material, a material conveying pipe, which can be connected to the input point (60), and at least one separating device (90, 90A, 90B), in which the material to be conveyed is separated from the conveying air, and also means for achieving a pressure difference and/or a conveying air current in the conveying pipe at least during conveyance of the material, which means for achieving a pressure difference and/or a conveying air current comprise at least one pump unit, which comprises at least one pump device (118A, 118B).

Abstract: A plant for transport of granular material comprising container for granular material to be transported, receiver-meter group designed to receive granular material from container, conveyance duct of granular material from container to receiver-meter group, depressurization-pressurization means arranged to suction/inject a gaseous medium from/into container, and vacuum duct between receiver-meter group and depressurization-pressurization means, thereby creating a flow of granular material and gaseous medium in at least one conveyance duct or line directed to receiver-meter group and a flow of gaseous medium between receiver-meter group and depressurization-pressurization means, the plant comprising detection means of parameters of flow located in vacuum duct or line, adjusting means of the power of depressurization/pressurization means and electronic control means designed to receive in input control signals from speed detection means and to emit control signals in output for driving adjusting means.

Abstract: The device according to the invention for conveying fluid comprises a conveying chamber, an inlet valve, which is located in the direction of flow, upstream of the conveying chamber, and with an outlet valve, which is located in the direction of flow, downstream of the conveying chamber. Moreover, an injector is provided for, whose suction duct is connected with the conveying chamber. Via an air duct, which is connected to the conveying chamber, exhaust air (AL) can be blown into the conveying chamber.

Abstract: An apparatus and related method for the recovery and the pneumatic transportation of dust coming from a filtration system provided with a particulate collection hopper. The apparatus comprises: an intermediate chamber for the passage of the particulate towards the evacuation means; and shutting means for a bottom opening of said hopper. The apparatus is characterised in that the shutting means comprise, in turn, a shutter moved according to an arrow (ARW) by the action of intermittent pressurised air that flows in a control conduit forming part of said shutting means. Furthermore, the evacuation means comprise elements, specifically a nozzle aligned with a Venturi, to produce a pressure drop in the intermediate chamber.

Abstract: A method for conveying material by applying a pressure difference in a conveying conduit (4), in which method the material is fed into the conveying conduit (4) and in the conveying conduit further into a separating device (5), where the material being conveyed is separated from conveying air, in which method a negative pressure is created in the conveying conduit (4) by means of an ejector apparatus (6), whose suction side is connected to the separating device (5), said ejector apparatus being operated using an operating medium consisting of a liquid mist, especially an aqueous liquid mist, said medium being sprayed through at least one spraying nozzle (122) into an ejector tube (128) directed into a separating element (38). In the method, the generation of the negative pressure to be produced is intensified according to need by limiting the flow of gases, such as air, into the ejector tube (128) from the direction opposite to the spraying direction of its operating medium, i.e.

Abstract: A residual feed pick-up system for poultry farming utilizes a tractor and trailer combination in which the blower for a pneumatic conveyor is mounted on the trailer. The hydraulic motor that drives the blower is also located on the trailer. Feed pick-up can be effected by the trailer accompanied by a standard over-the-road tractor equipped with a conventional and economically available hydraulic power takeoff unit commonly known as a PTO. The feed supplier to the poultry farm can use any of such commonly configured tractors in its normal operating fleet combined with the trailer having the onboard hydraulically driven blower for low-volume, residual feed pick-up service, thereby increasing reliability and availability of the service at advantageously low cost.

Abstract: A method for conveying material by applying a pressure difference in a conveying conduit (4), in which method the material is fed into the conveying conduit (4) and in the conveying conduit further into a separating device (5), where the material being conveyed is separated from conveying air, in which method a negative pressure is created in the conveying conduit (4) by means of an ejector apparatus (6), whose suction side is connected to the separating device (5), said ejector apparatus being operated using an operating medium consisting of a liquid mist, especially an aqueous liquid mist, said medium being sprayed through at least one spraying nozzle (122) into an ejector tube (128) directed into a separating element (38). In the method, the generation of the negative pressure to be produced is intensified according to need by limiting the flow of gases, such as air, into the ejector tube (128) from the direction opposite to the spraying direction of its operating medium, i.e.

Abstract: A method for conveying material by applying a pressure difference in a conveying conduit (4), in which method the material is fed into the conveying conduit (4) and in the conveying conduit further into a separating device (5), where the material being conveyed is separated from conveying air, in which method a negative pressure is created in the conveying conduit (4) by means of an ejector apparatus (6), whose suction side is connected to the separating device (5), said ejector apparatus being operated using an operating medium consisting of a liquid mist, especially an aqueous liquid mist, said medium being sprayed through at least one spraying nozzle (122) into an ejector tube (128) directed into a separating element (38). In the method, the generation of the negative pressure to be produced is intensified according to need by limiting the flow of gases, such as air, into the ejector tube (128) from the direction opposite to the spraying direction of its operating medium, i.e.

Abstract: A pneumatic nozzle capable of removing dry solid debris, liquids, and mixtures of solid and liquid waste is provided. The pneumatic nozzle uses a pressurized gas stream to push materials through the nozzle. The force of a pressurized gas stream provides a partial vacuum to allow material to be introduced into an opening of a nozzle via a slight suction force. Thereafter, individual particles and materials introduced into the pneumatic nozzle are pushed by a stream of pressurized gas through the nozzle.

Abstract: The invention relates to a device for generating a homogeneous powder-air mixture comprising a pressure section and a suction section, wherein the two sections merge in an outlet, wherein the pressure section terminates in an orthogonal direction in the suction section in an ejector-like manner, the suction section being open towards the surroundings. The invention also relates to a method for generating a homogeneous powder-air mixture.

Abstract: A device for conveying powders through pipelines including at least one pumping device which in turn includes a suction inlet and a delivery outlet and a tubular chamber with opposite ends connected respectively to the suction inlet through an input valve and to the delivery outlet through an output valve. A vacuum source and a pressure source are connected upon command to the chamber in axially distanced positions to create a vacuum respectively and alternatively in the chamber in relation to the environment upstream of the device and a pressure in relation to the environment downstream of the device.

Abstract: An apparatus and corresponding method for automatically changing out a filter cartridge in a continuous air monitor. The apparatus includes: a first container sized to hold filter cartridge replacements; a second container sized to hold used filter cartridges; a transport insert connectively attached to the first and second containers; a shuttle block, sized to hold the filter cartridges that is located within the transport insert; a transport driver mechanism means used to supply a motive force to move the shuttle block within the transport insert; and, a control means for operating the transport driver mechanism.

Abstract: A pellet loader according to the present invention is provided with an ejector portion 1. A gas supply pipe 2 is connected to an injection nozzle 11 of the ejector portion 1 for supplying compressed gas from a compressed gas source 8. An insert pipe 4 is connected to a suction inlet 12 of the ejector portion 1. Pellets are sucked from the suction inlet 40 of the insert pipe 4 into the ejector portion 1. A gas pipe 5 is arranged along the insert pipe 4 and one end of the gas pipe 5 has an opening 50 positioned at the vicinity of the suction inlet 40 of the insert pipe 4 and faced to the suction inlet 40 of the insert pipe 4 for injecting the compressed gas into the insert pipe 4. A transport pipe 3 is connected to an outlet portion 14 of the ejector portion 1.

Abstract: An antislip material ejector comprises an antislip material container 12 which stores antislip material, an air inlet pipe 13 which is arranged in the antislip material container, a compressed air supply pipe 14 which supplies compressed air to the air inlet pipe, a nozzle portion 16 which is arranged in the air inlet pipe, a mixing pipe 17, which is connected with the air inlet pipe, in which the antislip materials are mixed with air and in which a suction hole 18 is formed through which the antislip material passes, a connecting pipe, one end of which communicates with the mixing pipe and the other end of which communicates with a cavity in the antislip material container, and an ejection pipe 20 which is connected with the mixing pipe and which ejects the antislip material together with the compressed air.

Abstract: An apparatus for soil excavation having a vacuum hose, a vacuum holding tank and at least one air lance and/or water jet, in which a soil beneficiating agent is introduced into the soil during one or more of the steps of the vacuum excavation process.

Abstract: An assembly for distributing particulate material comprising a blower assembly which is preferably removably mounted on a mobile platform and structured to generate a forced flow of air along a flow path and through a manifold assembly connected to a supply of material being distributed. The manifold assembly includes a receiving segment incorporating a Venturi section facilitating the entrainment of the material into the forced air flow passing through a discharge conduit preferably having an extended length to facilitate distribution of the material to a plurality of locations in a variety of different environments. A vent assembly is provided to relieve back pressure from within the discharge conduit, which may be created due to its extended length.

Abstract: Process and device for the transport of granular solids with a controlled flow rate, in particular for the transport of catalyst in a hydrocarbon reforming unit. The device comprises a gravity-feed pipe (A) for solid particles in the dense phase, a pneumatic transport pipe (C) in the dilute phase, and an inclined transfer pipe (B) that connects, without a buffer space, the base of the feed pipe to the pneumatic transport pipe, whereby this transfer pipe comprises means (17, 18, 35) for injection of a secondary gas located at the junction between the feed pipe and the transfer pipe.

Abstract: An assembly for distributing particulate material comprising a blower assembly which is preferably removably mounted on a mobile platform and structured to generate a forced flow of air along a flow path and through a manifold assembly connected to a supply of material being distributed. The manifold assembly includes a receiving segment incorporating a Venturi section facilitating the entrainment of the material into the forced air flow passing through a discharge conduit preferably having an extended length to facilitate distribution of the material to a plurality of locations in a variety of different environments. A vent assembly is provided to relieve back pressure from within the discharge conduit, which may be created due to its extended length.

Abstract: An injector for a powder coating installation having an injector casing made of electrically non-conductive material, such as plastics. The interior surface and the exterior surface of the injector casing are coated with coatings of electrically conductive material, the coating of the exterior surface and the coating of the interior surface being electrically insulated from each other by interruptions. A means for tapping the friction charges is passed from the interior surface and out of the injector casing to a measuring instrument for measuring the charge current. The exterior surface of the injector casing is provided with a ground connection for establishing contact between the exterior surface and ground potential. In this manner the very small friction charge currents can be detected during operation of the injector without being affected by electromagnetic disturbances from outside.

Abstract: A quick color change system for powder coating spray systems includes a powder pump having a powder inlet and a powder outlet, and a powder flow path extending straight from the powder inlet to the powder outlet on a single longitudinal axis, a pump frame on which the powder pump is mounted, and a carriage on which the pump frame is mounted, wherein the pump frame may be moved linearly along the carriage. The pump may be used with separate flow air and atomizing air inlets.

Abstract: A continuous supply of scrap material from a papermaking or converting process is transferred by a venturi inducer system including a housing surrounding a tubular intake duct which defines with the housing an annular air chamber connected to receive pressurized air from a motor driven blower. The housing has a tapered or frusto-conical portion connected to a tapered material outlet duct and which cooperates with the inner end of the intake duct to define an annular nozzle opening. Long adjustable bolts connect the intake duct to the housing outboard of the housing and provide for externally adjusting the intake duct axially for precisely selecting the area of the nozzle opening to optimize the air flow through the nozzle opening for pulling and transferring the material while minimizing the electrical power required to operate the blower motor.

Abstract: An apparatus for sending bottle caps to a remote elevated location has a first hopper for temporarily storing bottle caps. The first hopper receives a supply of bottle caps. A feeder has an upper end and a lower end. The upper end of the feeder is coupled with the first hopper to receive bottle caps. A second hopper for receiving bottle caps from the feeder is situated beneath the lower end of the feeder. A tube is coupled to the second hopper to receive the bottle caps. A vacuum pump has an input coupled to the tube and an output for delivering the bottle caps at the remote elevated location.

Abstract: A device for transferring pulverulent material, for example, powdery material, including an enclosure (3) wherein the pulverulent material to be transferred is stirred and pressurized; a first pipe (8) and a second pipe (9) which transport the material towards its destination; and a gas intake (14, 15) for introducing gas to the second pipe (9). In one aspect of the invention, pipe (8) forms a nozzle (12), oriented in the direction of the material flow and directed toward second pipe (9). The gas intake (14,15) may emerge at the lower end of the first pipe (8), outside the nozzle (12), wherein the gas is introduced into the second pipe (9) through a plurality of through orifices (20) oriented substantially parallel to the flow direction of the pulverulent material.

Abstract: This invention relates to a system and a process for the removal of bulk material from a container, in particular, from a box-shaped transport container. In order to be able to suction the bulk material off in a simple and reliable manner out of the transport container, one first of all attaches to an outlet area of container (10) a removal instrument (23) that has a conveyance device. This conveyance device conveys the bulk material in the removal instrument (23) essentially against its direction of outflow out of container (10) into a discharge area of the removal instrument (23) out of which bulk material is sectioned off by means of an off-sectioning device (39) that is connected thereto. To support the off-sectioning of the bulk material, air—by means of an air supply device (17, 19, 20′)—is so piped into the bulk material located in container (10) that the bulk material is fluidized.

Abstract: A system and method for conveying and dispensing packing material, such as a chain of linked air bags which includes a pressurized pathway and an elongated hopper that conveys and dispenses the air bags. The hopper includes a plurality of air jets that transfer the bags between each jet to a remote end of the hopper, and a series of dispensing ports so the bags may be accessed by several users. The hopper further includes a venting and display surfaces throughout its length.

Abstract: An apparatus for emptying powder from a container, such as an original shipping box includes a support having a vibrating unit for loosening the powder within the container. A powder pick-up tube and an attached powder pump draw powder from the container and transfer the powder to a powder spray gun. The lower end of the pick-up tube includes a positively pressurized fluidization unit for locally fluidizing the powder at the pick-up tube inlet. The pressurized fluidization unit primarily assists in providing a consistent draw of powder up the pick-up tube.

Abstract: An Improved Apparatus and Method for Moving and Placing Granulate is disclosed. The disclosed device is a portable, self-contained apparatus capable of discharging granulate into hard-to-reach areas, as well as providing assistance in covering vast open areas with granulate in a short time. Furthermore, the device and method described herein permit the application of granulate into areas that are normally inaccessible and would require many hours of human labor, and thereby potentially avoiding damage to the site that might be incurred if employing a prior method and device.

Abstract: The invention relates to a method for treatment of blowable thermal insulation, whereby thermal insulation, such as woodfiber wool, cellulose wool, mineral wool, glass wool and/or like is being led by means of one or several filling means (3a) to a transport space (1), such as a container or like, the internal volume of which may be changed, in order to transport thermal insulation in the transport space (1) to its destination of use and to unload same from the transport space (1) to a reception point essentially by blowing carried out by a blow arrangement. Thermal insulation is being led to a filling space (1x), that is limited from the transport space (1) by means of a filling device (3b), which filling space is being expanded along filling of same by moving the filling device (3b) in the transport space (1) in the longitudinal direction of same (s1) towards unloading end (Pp) of same. The invention relates also to an apparatus operating according to the method.

Abstract: A desiccant feeder system comprising, a reservoir for desiccant canisters, means for delivering the canisters through a transfer tube to at a loading station, means for presenting the open end of containers one at a time at the loading station, means for circulating air at high velocity through the tubing including an adjustable internal ring-shaped nozzle to deliver desiccant canisters from the reservoir to the loading station, and a shuttle selectively actuatable to discharge at least one desiccant cannister to the containers at the loading station.

Abstract: A desiccant feeder system comprising, a reservoir for desiccant canisters, means for delivering the canisters through a transfer tube to at a loading station, means for presenting the open end of containers one at a time at the loading station, means for circulating air at high velocity through the tubing including an adjustable internal ring-shaped nozzle to deliver desiccant canisters from the reservoir to the loading station, and a shuttle selectively actuatable to discharge at least one desiccant cannister to the containers at the loading station.

Abstract: The present invention relates to a device for generating a powder-air mixture, having a powder delivery device, a conveying air feed pipe for the conveying air, and a device for forming an enveloping conveying air jet. The powder delivery device terminates in the conveying air feed pipe and therefore in the enveloping air jet.

Abstract: A desiccant feeder system comprising, a reservoir for desiccant canisters, means for delivering the canisters through a transfer tube to at a loading station, means for presenting the open end of containers one at a time at the loading station, means for circulating air at high velocity through the tubing including an adjustable internal ring-shaped nozzle to deliver desiccant canisters from the reservoir to the loading station, and a shuttle selectively actuatable to discharge at least one desiccant cannister to the containers at the loading station.

Abstract: An eductor wand for vacuuming free flowing, bulk particulate materials consisting generally of a first conduit having first and second inlets; a venturi disposed within such first conduit and spaced therefrom to provide a passageway therebetween intercommunicating the first and second inlets of the first conduit and having an inlet disposed adjacent the first inlet of the first conduit and an outlet communicable with a particulate material conveying means; and a second conduit having an inlet connectable to a source of air under pressure and an outlet configured to inject pressurized air into the venturi inlet whereby upon applying air under pressure to the second conduit and positioning the first conduit inlet adjacent a mass of particular material, a low pressure zone will be created in the first conduit inlet causing particulate material to be drawn through the first inlet of the first conduit and ambient air to be drawn through the second inlet of the first conduit, and such particulate and ambient air to

Abstract: A spherical object supplying apparatus is to positively and smoothly supply, when spherical objects such as spherical single crystal silicons are supplied from a storing container such as a hopper to the following processing or manufacturing station (or apparatus), the spherical objects one at a time. The apparatus comprises: a supplying pipe path coupled to a spherical object storing container; a branch pipe which branches from the supplying pipe path; and a fluid supplying apparatus adapted to introduce pressurized fluid into the branch pipe path. The spherical objects are accelerated by the pressurized fluid which is jetted through the branch pipe path into the supplying pipe path.

Abstract: An ejector mountable on a planar wall of a housing for gathering and conveying particulate material to within such housing generally consisting of a flat base plate segment mountable on such planar wall member, a first set of flat plates joined together and with the base plate segment defining a converging fluid passageway, a second set of flat plate segments joined together and with the first set of plate segments and the base plate segment defining a restricted fluid passageway communicating with the converging fluid passageway and a third set of flat plate segments joined together and with the second set of plate segments and the base plate segment defining a diverging fluid passageway communicating with the restricted fluid passageway, one of the plate segments having a first inlet opening through which a stream of pressurized fluid may be injected into the converging and restricted fluid passageways, one of the plate segments having a second inlet opening through which fluid may be suctioned by a negativ

Abstract: An aeration discharge outlet assembly for use with bulk material containers wherein we provide an external cone and an internal cone. With internal cone being completely surrounded by pressurized air within an annular space and includes multiple air inlet passages which draw in the pressurized air and aerate the flowable substance therein before discharge thereof.

Abstract: An apparatus for pneumatically conveying granular material such as gravel. The apparatus includes a vehicle base mounting plate, a prime mover such as a diesel engine, a hydraulically driven air blower, a hopper for receiving gravel to be conveyed, and a hydraulically driven auger assembly for moving gravel from the hopper to a pneumatic pick-up point. After pneumatic pickup, the gravel is transported through an extended network of suitable pneumatic tubing such as low friction, thick wall, PVC pipe sections, to a desired discharge location, where the material is discharged into a catch can for downward placement at a desired point. In a preferred embodiment, the auger assembly comprises a three piece unit, with a shaft, an inner auger section, and an outer auger section. The outer auger section is a replaceable wear part which can be repaired, rebuilt, or replaced as necessary due to frictional wear on the auger due to contact with the solid being conveyed.

Abstract: A system and corresponding method are disclosed for blowing or spraying loose-fill insulation (e.g. fiberglass) into wall cavities and the like the system including a fiber recovery or recycling subsystem that vacuums up overspray or waste fibers and forwards them back toward the hopper. A fiber collector device having a fiber inlet and outlet is mounted above the hopper, and receives the recovered waste fibers and redistributes them back into the hopper so that they mix with virgin fibers therein. The mix of recovered and virgin fibers is then blown through the blow hose toward a wall cavity or the like to be insulated.

Abstract: A gas conveying system capable of conveying a solid material without pushing or compressing the solid material. The system comprising: at least one conduit assembly comprising a conduit, a lance assembly disposed about a first end of the conduit which is capable of removing the solid material from a holding device, and a first eductor which is capable of entraining the solid material in a gas stream and moving the solid material through the conduit; a cyclone disposed about a second end of the conduit, the cyclone being capable of separating the solid material from the gas stream; and a second eductor disposed to receive the solid material from the cyclone, the second eductor being capable of entraining the solid material in a second gas stream which has a solid-material-to gas mass ratio which is greater than that of the first eductor. The second stage eductor transports the particles further downstream for storage, additional transport, or for further treatment, such as burning in an incinerator.

Abstract: An improved extraction apparatus for bulk material containers, in particular for bins (1) filled with a pourable bulk material (3), comprises a suction head which can be lowered onto the bulk material (3). According to the improvement, provision is made for the suction head (10) to be provided with a float (11), floating in or on the bulk material (3), and to be held above it, and for the oscillation control device (35) to be arranged in such a way that the suction head (10) and/or the float (11) can be caused at least indirectly to oscillate.

Abstract: An ejector for providing motive gas for conveying particulate solids from a solids supply vessel through a conveying pipeline includes a gas introduction stage and a solids introduction stage. The gas introduction stage includes a fluids mixing chamber having a principal inlet port for connecting to a source of high-pressure compressed gas, an outlet port connected to the solids introduction stage, and a secondary inlet port that is open to the atmosphere or other low-pressure gas source. The solids introduction stage includes a fluids/solids mixing chamber having an inlet port connected to the gas introduction stage, an outlet port for connecting to a pipeline, and a material receiving port for connecting to a vessel outlet. As the compressed gas enters the gas introduction stage, the high velocity gas induces atmospheric air or other low-pressure gas from the secondary inlet port, thus increasing the mass flow into the solids introduction stage.

Abstract: An injector arrangement for use where particulates are to be entrained in a gas transport medium. The apparatus has a nozzle discharging conveying gas and a secondary, dosing, gas flow provided from an annular passage. This secondary flow envelopes the conveying gas. Particulates are drawn into the combined gas streams by a venturi effect.

Abstract: In a method of and a device for suction transporting a material from an object surface, the suction transporting device has a suction unit and a unit for modulating the suction. A suction is applied to a transporting line by the suction unit so that a material is transported through the transporting line from an inlet to an outlet. A suction force of the suction produced in the transporting line is modulated by communicating an interior of the transporting line with atmosphere through a passage and periodically changing the area and the shape of the passage during the transporting. The frequency of the modulation is changed in dependence on the distance between the inlet of the transporting line and the object surface.

Abstract: Powder spray coating injector device consisting generally of three tubes nested coaxially. Fluidized powder is carried through an inner one of the tubes and compressed air is carried through annular passages between the inner tube and an intermediate tube and between the intermediate tube and an outer tube. The compressed air is used by a fluidizer to fluidize the powder coating material and by an injector to convey the fluidized powder coating material to a conventional powder spray applicator. Upstream ends of the tubes, relative to the direction of powder feeding, are connected via an adapter to an end section. The end section is provided with at least one fluidizer and the injector through which fluidized power is sucked. Any residual powder is easily cleaned from the injector device by positioning a cap over the fluidizer and injector and by delivering compressed air to the cap while fluidizing and injector air is supplied to the device.

Abstract: A bag dumping station for receiving particulate materials from rupturable bags or other portable containers is provided with a vacuum facility with a direct inlet to the hopper of the station and includes an ejector for providing motive gas for vacuum conveying particulate solids from a drum or spilled materials from broken bags.