DE2720094A1 - Granular material transporting air separation system - delivers upwards into upright cylindrical vessel with filter disc at top to form metering chamber - Google Patents

Abstract

The system separates air from pneumatically transported granular or powdery material and also meters the latter. The air and material handled are delivered upwards into an upright cylindrical vessel at a speed such that the material is compressed into a slug moving upwards in the vessel, while the air is led out of the latter via a filter disc forming the top of it. The pneumatic conveyor system can be shut off at a predetermined time before filling of the vessel is complete. The dia. of the vessel can be less than its height, while its bottom is open for discharge of the granulate material. The filter disc forms a metering chamber between itself and the bottom. The pneumatic conveyor tube discharges into the lower end of this chamber.

Description

"Method and apparatus for separating air from

pneumatically conveyed granules and powders "The invention relates to a method and an apparatus for separating the air from pneumatically conveyed Granules and powders as well as their dosage. In known methods and devices of this kind, through which the separation of the conveyed material required after pneumatic conveying caused by the air, large separation tanks are required. In these Containers the separation takes place by centri @ ugal @ r @ fte or by lowering in large calming areas with Pfiltern, in the case of well-known methods are required to achieve Performs large containers and cit large filters required.

In addition, the conveying air and the material to be conveyed have high speeds with centrifugal separators and when using calming rooms, high flow velocities are required when separating through a filter. As a result of the high speeds of the conveyed goods, signs of wear appear on the walls of the containers, which are very high, especially with aggressive media.

The invention is based on the object of creating a method and to provide a device through which the aforesaid roof parts be avoided.

The process for separating the air from pneumatically conveyed granulates and powders and their dosage is characterized according to the invention, that the conveying air with cem conveyed material in a standing, cylindrical container at-its lower end with such a flow velocity in this one and is guided upwards so that the conveyed material forms a plug in the container condenses in this.

moves upwards, and that the air flows through an air that delimits the container at the top Filter disc is passed out of the container. By blowing in the conveying air together with the Material to be conveyed at the lower end of the container the entire conveyed material is not moved directly upwards, but parts of it lie protectively between the pneumatically re-conveyed material and the container wall, so that a direct impact of the following conveyed goods on the inner wall of the Container is avoided. Due to the upward movement of the air and the material being conveyed In the container, bridges are created in the conveyed goods, which extend over the entire cross-section of the container form extending plug. This is caused by the flow of the conveyed material Distorted downwards and upwards due to the conveying air that also flows in moves as the conveying air moves through the spaces between the granules and can exit the container through the filter disc. The pores in the filter disc are chosen so small that they pass the granules conveyed n the container or make powder impossible. The size of the pores is less than 30. To that pneuratic To be able to dose the conveyed material, the entire interior of the container can be filled before it is emptied by opening the bottom of the container. Is the whole The interior of the container is filled with material to be conveyed, the pneumatic conveying collapses, so that no more granules can be added. The plug formation in the Container takes place the greatest possible compression of the conveyed material in the container so that a very precise dosage is possible.

However, a specific, i.e. dosed, amount of promotes should not be used Well are fed to a hopper of a further processing device, so is, According to a further feature of the invention, it is provided that the pneumatic conveyance switched off after a predetermined time before the container is completely filled will. In this way it reaches the surface of the rising drop in the container not the filter disc, so that a pore is covered by the adjacent granulate, which has the advantage that smaller filter discs can be used.

A device is used to carry out the method according to the invention, which is characterized according to the invention in that the standing vertical Container has a diameter smaller than its height and its bottom to empty the granulate is to be opened, and that the container at its upper The end is closed by a filter disc that hisses this and that Dosing chamber lying on the bottom of the container is limited, into which the pneumatic conveying line opens at the lower end. A device designed in this way is then suitable if compressed air is used to convey the material by flight. This will go together with the conveyed material via the opening into the dosing chamber at the lower end of the container Feed line introduced. The conveying air can after separation of the conveyed material through the filter disc out of the dosing chamber and thus out of the container.

However, instead of compressed air, suction should be used to convey the air is, according to a further feature of the invention, above the filter disc a closed chamber sealing the container is provided, from which the Connection of a suction line serving nozzle leads out. Of course you can this device can also be used for conveying compressed air. In this case serves the nozzle leading out of the chamber then acts as an air outlet.

To the formation of a slowly moving upward in the container To simplify the stuffing of the conveyed goods, according to a further feature of the Invention, the diameter of the container at the smallest amount of conveying air of about 0.5 m³ / min depending on the nature of the conveyed material 70 to 100 mm. The fine diameter is used when the grain size of the material to be conveyed is very small. On the other hand, a container can have the large diameter if it the conveyed material is granules with a large grain size.

is, for example, 8.5 with a very large amount of conveying air m³ / min worked, so can, according to a further feature of the invention, the diameter of the container in turn depending on the nature of the conveyed goods, for example 300 to 400 mm.

Because with larger amounts of conveying air, the conveying line has a larger diameter are required, according to a further feature the invention the diameter of the container 3 to 4 times the diameter of the inlet the conveying air and the conveyed material in the dosing chamber to form the plug to ensure and to allow it to slowly rise into the container. Due to the only slow relative movement between the material being conveyed and the wall of the container signs of wear cannot occur. Should an uninterrupted conveyance and separation of the air from the conveyed material can be achieved, of course two devices side by side above a hopper one the conveyed material further re.working device be arranged. These are so with the delivery line connected that when a metering chamber is filled to a certain degree is, an automatic shutdown of the promotion to this Behältcr takes place and the Delivery line is automatically applied to the second container, while at the same time the emptying of the container filled with the conveyed material is effected. In the meantime the second container has then been filled to such an extent that the feed line can be switched back on the already emptied container and the emptying of the second container can.

In order to have a dosing chamber with a given diameter container To be able to form different volumes is, according to a further characteristic, the Invention, the filter disc designed as a piston displaceable in the container and carries an adjustment rod, which after adjustment of a predetermined metering chamber volume definable is.

If two components are to be mixed in a mixing chamber, then according to a further feature of the invention, the device characterized by two containers, whose emptying openings, which can be displaced by valve flaps, into the Open into the mixing chamber, with one of the components to be mixed in a container and the other component is conveyed to the other container. Are the funded Components in the two dosing chambers precisely dosed, so after opening it can The valve fold and the two components are introduced into the mixing chamber to mix them take place.

In the drawing are exemplary embodiments of various devices shown for performing the method according to the invention. In this drawing show: Ig. 1 is a schematic, partially broken-away representation of a container comprising Contraption; FIG. 2 shows an illustration of a device corresponding to FIG. 1 with two containers which are arranged above a mixing chamber, and FIG. 3 shows a Cross section through a container that both with compressed air delivery as well as can be operated with suction.

A cylindrical, upright container designated as a whole by 1 is arranged on a base plate 5, which is applied to a filling funnel 10 is, the lower flange 11 of the connection with a further processing of the conveyed material Einrichtunt is used. The bottom plate 5 has an inner diameter of the container 1 corresponding opening which can be closed by a valve flap 8. These can be pivoted about an axis 9. Panning can vary depending on the purpose the device can be effected manually or automatically.

The container 1 is at its upper end through a filter disc 4 locked. The one below the filter disc 4 between this and the through the closed valve flap 6 formed bottom interior of the container forms a metering chamber 2 of predetermined volume.

The container 1 is above the filter disk 4 by a closed Chamber 7 continued, which carries a nozzle 6. A corresponding nozzle 3 is provided at the lower end of the metering chamber 2.

To carry out the method, a delivery line can be attached to the nozzle 3 connected be used for pneumatic conveying or for conveying a granulate or a powder is used.

The device illustrated in FIG. 1 can not only be used for separation the conveying air can be used by the conveyed material, but also by the special Dimensioning of the Dosierkasmer 2 for dosing the conveyed material.

In the embodiment illustrated in FIG. 2, the carries Bottom plate 33 has two cylindrical containers 20, 21 of different diameters. This base plate closes a mixing chamber 34, which can be applied with its flange 35 is. In the mixing chamber 34 there is an Ilischer 37 driven by a motor 36 indicated.

The openings corresponding to the inner diameters of the containers 20 and 21 valve flaps 38 and 39 can be closed under the containers in the base plate 33. The containers formed by cylindrical tubes of different diameters 20 and 21 are shared at their upper end by a two containers chamber 30 closed, from which a connecting piece 32 leads out. In the containers 20, 21 are Piston-like filter disks 24 and 25 are provided. Each of the filter discs is arranged at the lower end of an adjustment rod 26 and 27, respectively. The adjustment rods 26 and 27 extend tightly through the top wall of chamber 30 and through detents 28 and 29 through. With this arrangement, the in each container 20 respectively. 21 below the filter disc 24 or 25 lying metering chamber 22 or 23 in their Volume can be changed. There is thus the possibility of any desired mixing ratio of the mixture components conveyed through the nozzles 31 into the metering chambers 22 and 23 to adjust.

Fig. 3 of the drawing shows an embodiment used in practice a container 40. The container 40 is made up of several pipe sections 49, 42, 41, 43 and 45 joined together to form a vertical cylindrical container. Around To be able to observe the drop formation and its upward movement is the pipe section 41 made of transparent, crystal clear material. All pipe sections are airtight connected with each other. A filter disk is located between the pipe sections 43 and 45 44 arranged. For airtight, but zllr. Replace the openable filter disc A soft elastic material is used to connect the two ear sections 43 and 45 rigid-backed collar 46. The tubular container 40 is formed by a Front plate 47 closed at the upper end. This carries a connection nipple 48 for a compressed air line that allows compressed air to be introduced to clean the filter disc 44 serves. A connecting piece leads from the chamber located above the filter disk 44 52 out. A nozzle 50 of the same diameter leads to the lower end of the container 40 into the pipe section 49.

The lower pipe section 49 of the container 40 is provided with a bottom plate 54 welded, for example on the hopper of a further processing the conveyed material Facility can be applied. To approximately the inner diameter of the pipe section 49 corresponding opening in the bottom plate 54 is on the one facing away from the pipe section Surface of the plate an annular seal 55 is applied. This is closed Valve flap 56 connected between this and the bottom plate 54 to open the opening to close tightly. The valve flap 56 is pivotable about an axis 57 about Eyes 58 are arranged on the base plate 54. The valve flap 56 extends over the pivot axis 57 angled out. One acts on the abt, angled area the opening and closing of the valve flap 56 causing a control device 60.

This control device 60 comprises a pneumatic actuator 61, the pressure medium via a control line 62 from a control not dargestell th is fed. The actuator 61 is firmly screwed to a plate 63 which a valve tube closes at the top. The bottom of the valve tube is through the bottom plate 54 closed. The plate 63 is not through in the drawing bolt shown pulled firmly against the base plate. The valve tube consists of Pipe parts 64, 6 (), 68. The pipe parts 64 and 66 carry nozzles, while the pipe part 68 has bores 69 distributed over the circumference. Between the pipe parts 64, 66 and 68 valve seats 65 and 67 are arranged so that they are with a Double seat valve member 71 can act together. The valve member is from the control rod of the control member 61 carried so that it is in the upper shown in the drawing Position rests tightly on the valve seat 65, the lower end of the control rod at a distance from the swirled area of the valve flap 56 9teht. In the extended In the position of the actuator, the valve element rests on the valve seat 67 and the lower one End of the control rod presses the valve flap against the ring seal 55, so that the container 40 is closed.

If this device is to be used for suction conveying, the a suction line connected to the pipe part 64 of the control tube verburdenen stub. The socket of the pipe part 66 is connected to the socket 52 of the via a hose 53 connected above the filter disk 44 chamber. Is the valve member 71 on the valve seat 57 and the control rod 70 of the actuator 61 has the Valve flap 56 moved against the seal 55, the suction line is over the open Valve 65, 71 and the tube 53 with the above the filter disk 44 are the Chamber connected. The suction of the line now promotes from one to the nozzle 50 of the Conveying line 51 connected to the dosing chamber Conveying air and material to be conveyed into the dosing chamber into it. If this is filled with material to be conveyed, the actuator closes the valve 65, 71, whereby the suction is stopped. Simultaneously is through the upward movement of the control rod 70 lowers the valve flap 56 and thus the emptying opening of the container 40 is opened. About the holes 59 can now through the opened valve 67, 71 atmospheric air via the hose 53 and through penetrate the filter disk 44 so that the in the metering chamber can move dosed material out of the dosing chamber into the filling funnel. A new dosing process can be initiated by reversing the actuator.

The device according to the invention makes it possible instead of the previous one Large volume separator to use small handy containers that are in operation have practically no signs of wear. In addition, it makes the inventions wet Device possible to work with both air pressure and suction.

L e r s e i t e

Claims (9)

Claims 1. A method for separating the air from pneumatically conveyed Granules and powders as well as their dosage, d u r c h e k e n n z e i c h n e t that the conveying air with the conveyed material in a standing cylindrical Container (1, 20, 21, 40) at its lower end with such a flow rate is moved in this in and upwards that the conveyed material in the container becomes one Compacted plug, which moves upwards in this and that the air through a The filter disc (4, 24, 25, 44) delimiting the top of the container through out of the container is led out. 2. The method according to claim 1, d a d u r c h g e k e n nz e i c h n e t that the pneumatic conveyance after a predetermined time before complete Filling of the container (1, 40) is switched off. 3. Device for performing the method according to claim 1 and 2, it is noted that the standing cylindrical container (1, 20, 21, 40) has a diameter that is smaller than its height, among other things Bottom is to be opened to empty the granulate, and that the container at his upper end is closed by ein.Filterscheibe (4, 24, 25, 44), the one the dosing chamber (2, 22, 23) lying between this and the container bottom is limited, into which the pneumatic conveying line (3, 31, 51) opens out at the lower end. 4. Apparatus according to claim 3, d a d u r c h g e k e n n -e i c h n e t that above the filter disc (4, 44) a container (1, 40) extending, closed chamber (7) is provided, from which an air outlet when compressed air is conveyed and in the case of suction conveying the connection of a suction line serving nozzles (6, 52) leads out. 5. Apparatus according to claim 3, d a d u r c h g e k e n n -s e i c h n e t that the diameter of the container (1, 2C, 2 ;, 4C) with the smallest amount of conveying air of about 0.5 m³ / min depending on the nature of the conveyed material 70 to 100 mm. 6. Apparatus according to claim 3, d a d u r c h g e k e n n -z e i c h n e t that the diameter of the container with the largest amount of conveying air from 8.5 m3 / min depending on the nature of the material to be conveyed approx. 300 to 400 mm. 7. Apparatus according to claim 3 to 6, d a d u r c h g e -k e n n z e i c h n e t that the diameter of the container is 3 to 4 times the diameter the entry of the conveying air and the conveyed material into the dosing chamber (2>. 8. Apparatus according to claim 3 and 4, d a d u r c h g e -k e n n z e i c h n e t that the filter disc (24, 25) can be slid in the container as one Piston is formed and an adjustment rod (26, 27) carries which, after adjustment a predetermined metering chamber volume can be determined (28, 29). 9. Device according to claim 8, arranged on a mixing chamber, g e k e n n n z e i c h n e t d u r c h at least two containers (20,21), whose through Valve flaps (38, 39) closable emptying openings in the mixing chamber (34) open, with at least one container (20) one of the components to be mixed and the other component is conveyed to the other receptacles (21).