An injector head for delivering particulate material from a feeder source to a receiver is fitted with a plurality of splitter bars extending generally laterally from the sidewalls thereof into the space through which particulate material is fed as it flows into a receiver. Spray nozzles mounted to said sidewalls below said splitter bars spray coating material generally laterally relative to said sidewalls and generally laterally relative to the length of said splitter bars so as to coat particulate material as it passes over and to the sides and ends of said splitter bars.

The invention relates to a seal assembly comprising: a seal for a bulk material container, having a ring-shaped connecting flange with a through opening and a first moving element; and a seal member for selectively sealing or opening the through opening. A container wall of the bulk material container can be attached to the connecting flange. The seal assembly also comprises a docking device having a housing, a second moving element, and a seal actuating device. In order to increase the tightness of the seal, one of the moving elements comprises a peripheral first stripping element, by means of which impurities are stripped from a surface of the connecting flange, in a closing process for sealing the though opening of the connecting flange.

A mobile earth working machine (10), for example a road milling machine, recycler, or surface miner, includes: a working apparatus (12) for material-removing working of a region of a substrate (U); and an extraction device (40) that is embodied to extract dust-laden air from at least one machine region at at least one extraction location (46), and to exhaust extracted air at a discharge location (50) different from the extraction location (46),
the extraction device (40) comprising a filter apparatus (42) arranged along an operational flow path from the at least one extraction location (46) to the discharge location (50), the filter apparatus (42) encompassing: a filter housing (54); a filter element (52) received in the filter housing (54), the filter element (52) being embodied to remove dust particles from the air flowing through the filter apparatus (42). The filter apparatus (42) comprises a deformation actuator arrangement (44, 76a) that interacts force-transferringly with at least one wall (86) of the filter housing (54) in such a way that by actuation of the deformation actuator arrangement (44, 76a), the at least one wall (86) of the filter housing (54) is deformable orthogonally to its wall surface.

The present invention proposes a relief module comprising a tubular body (10) for the passage of bulk material, at least a lateral opening (12) in the tubular body (10), a window (20) to cover the respective lateral opening (12), the window (20) operating in a closed position preventing the bulk material from exiting through the lateral opening (12) or in an open position allowing the material to exit through the lateral opening (12), the window (20) having at least one portion made of filtering material allowing the air to pass through and retain solid particles, when the window (20) is in the closed position. The present invention also proposes a bulk material discharge device which receives the bulk material from a feeding system and discharges the bulk material to a destination, the discharge device comprising a relief module configured according to the invention.

The present invention proposes a relief module comprising a tubular body (10) for the passage of bulk material, at least a lateral opening (12) in the tubular body (10), a window (20) to cover the respective lateral opening (12), the window (20) operating in a closed position preventing the bulk material from exiting through the lateral opening (12) or in an open position allowing the material to exit through the lateral opening (12), the window (20) having at least one portion made of filtering material allowing the air to pass through and retain solid particles, when the window (20) is in the closed position. The present invention also proposes a bulk material discharge device which receives the bulk material from a feeding system and discharges the bulk material to a destination, the discharge device comprising a relief module configured according to the invention.

A system for preparing a dry process material includes a sealed container that holds and seals the dry process material therein and prevents airborne dust or particles from the dry process material from escaping the sealed container. Sealed processing equipment receives the dry process material from the sealed container and prevents the airborne dust or particles from escaping the sealed processing equipment. A sealed connection sealingly couples the sealed container to the sealed processing equipment and prevents the airborne dust or particles from escaping while transferring the dry process material. A sealed transfer conduit is sealingly coupled to and extends from the sealed processing equipment.

The invention relates to a filling and/or emptying apparatus (1) and to methods for filling and/or emptying flexible containers (5), particularly sacks, with in particular hazardous, loose substances, preferably in powder form, comprising a filling and/or emptying neck (2) with an open end portion and at least one deformable disposable fastening ring (9), wherein the disposable fastening ring (9) is designed in relation to the internal diameter of the filling and/or emptying neck (2) such that once a container edge (7) is folded over around the fastening ring, preferably from radially inside to the outside, it is possible to insert, particularly to insert manually, the disposable fastening ring (9) in an end portion of the filling and/or emptying neck (2) so that the disposable fastening ring (9) is arranged substantially concentrically with the filling and/or emptying neck (2), and a radially outer fold-over portion (8) of the container edge (7) is arranged and/or clamped between an inner surface of the filling and/or emptying neck (2) and a radially outer surface. Furthermore, the disposable fastening ring (9) is designed in relation to the internal diameter of the filling and/or emptying neck (2) such that it is possible to press, particularly to press by mechanical means, the disposable fastening ring (9) into a sealing portion (15) of the filling and/or emptying neck (2), which is arranged after the end portion in the axial direction (A) and preferably has a smaller internal diameter than the end portion, wherein the disposable fastening ring (9) undergoes, preferably elastic deformation in the radial direction, so that the insertion and/or pressing into the interior of the filling and/or emptying neck (2) leads to a radial deformation and a counterposed pressure force, preferably an elastic return force, which presses the outer fold-over portion (8) of the container edge (7) against the inner surface of the filling and/or emptying neck (2), thereby sealing the container (5) against the filling and/or emptying neck (2).

A transfer device is designed for contamination-protected transfer of flowable process material between a first container and a second container. The transfer device includes a guide tube having an axial passage for the flow of the process material, which has a connection at one end and terminates with a tube edge at the other end. A transfer unit opens into the guide tube, which allows engagement with the guide tube. A tubular liner supply having a plurality of peelable useful sections, each provided with a first crimp, is stored on the transfer unit. The useful sections can be used to isolate liner remnants from previous transfer operations for disposal. A first tensioner and a second tensioner are arranged circularly on the guide tube and concentrically to each other, which serve for temporary sealed fixing of residual ends and open ends of new liner pieces originating from inner liners from the second containers.

The present invention discloses a feeding system that comprises a plurality of material tanks having air outlets, a plurality of blowers, a dust remover having an air inlet, and a connecting pipe. Air inlets of the plurality of blowers are in communication with the air outlets of the material tanks in one-to-one correspondence. The first end of the connecting pipe is in communication with the air inlet of the dust remover, and the second end of the connecting pipe is movable between being connected with the air outlet of a first one of the plurality of blowers and being connected with the air outlet of a second one of the plurality of blowers. The disclosed feeding system a simple structure and zero dust leakage. Also disclosed is a glass production apparatus that comprises the disclosed feeding system.

The invention provides a management system of a material which is a steelmaking raw material and/or a fuel for power generation and which is managed outdoors. The management system includes an information managing unit, a weather information acquiring unit, and an assessing unit. The information managing unit is configured to manage, for each of piles of the material, powder dust prevention processing information including a presence or absence of existing powder dust prevention processing with respect to the material and a type of the powder dust prevention processing. The weather information acquiring unit is configured to acquire weather information indicating outdoor meteorological phenomena forecasted for the future. The assessing unit is configured to assess an occurrence of powder dust for each of the piles based on the powder dust prevention processing information and the weather information.