The invention concerns a process and a device (2) for the pneumatic conveyance of powdered material (4), in which a cylindrical chamber (10, 12), which can be connected with a reservoir (6) by a sealable inlet (14, 16) and with a delivery line (28) by a sealable outlet (18, 20), is alternately fille
The invention concerns a process and a device (2) for the pneumatic conveyance of powdered material (4), in which a cylindrical chamber (10, 12), which can be connected with a reservoir (6) by a sealable inlet (14, 16) and with a delivery line (28) by a sealable outlet (18, 20), is alternately filled with material from the reservoir (6) and emptied of this material by applying a negative pressure to the chamber with its outlet (18, 20) closed and its inlet (14, 16) open through a bordering wall formed by a gas-permeable filter element ( 50) to draw material into the chamber (10, 12) from the reservoir (6), and by then admitting a gas under pressure into the chamber (10, 12) with its inlet (14, 16) closed and its outlet (18, 20) open to force the material previously drawn into the chamber (10, 12) out of the chamber and into the delivery line (28). To prolong the service life of the filter element (50) and to avoid contamination of the filter element more easily, it is proposed, in accordance with the invention, that the filter element ( 50) be designed as a hollow cylinder and that it surround at least a portion of the chamber (10, 12).
대표청구항▼
The invention claimed is: 1. A device for the pneumatic conveyance of powdered material, comprising: a powder material supply, a first chamber and a second chamber, a delivery line, the first chamber connected to the powder material supply through a first pinch valve, the second chamber connected t
The invention claimed is: 1. A device for the pneumatic conveyance of powdered material, comprising: a powder material supply, a first chamber and a second chamber, a delivery line, the first chamber connected to the powder material supply through a first pinch valve, the second chamber connected to the powder material supply through a second pinch valve, the first chamber connected to the delivery line through a third pinch valve, the second chamber connected to the delivery line through a fourth pinch valve, wherein one of said chambers receives powder from the supply while the other of said chambers discharges powder to the delivery line in alternating sequence, each said chamber being at least partially defined by a wall of a rigid hollow cylinder formed of a gas-permeable material, and to which negative pressure can be applied through the gas-permeable material to draw gas out of the chamber to receive powder material from the supply, and into which compressed gas can be admitted through the gas permeable material into the chamber to force the powdered material, which had previously been drawn into the chamber, out of the chamber to the delivery line. 2. The device of claim 1 wherein the gas-permeable element comprises a sintered material. 3. The device of claim 2 wherein said material comprises sintered plastic powder. 4. The device of claim 3 wherein said material comprises a pore size of less than about 20 micrometers. 5. The device of claim 3 wherein said material comprises a pore size of less than about 5 micrometers. 6. The device of claim 1 comprising a source of pressurized purge gas, and a valve for admitting purge gas into the chamber other than by filtering through said gas-permeable wall. 7. The device of claim 6 wherein the compressed gas that passes through the gas-permeable wall and forces material out the chamber also cleans an interior surface of the gas-permeable wall. 8. The device of claim 1 wherein each said cylinder has a longitudinal axis, and further wherein material enters the chamber from one axial end thereof and exits the chamber from the opposite axial end thereof. 9. The device of claim 8 wherein said first and second chambers are arranged side by side with parallel longitudinal axes.
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