DE1010450B - Conveyor device for emptying fine-grained and dust-like material such as cement from containers using compressed air - Google Patents

Description

Conveyor device for emptying fine-grained and dusty As good as cement using compressed air from containers For the transport of dusty or fine-grained goods such as cement, containers of various designs are used. The containers can be upright, rounded at the bottom or tapered at the bottom Be cylinders and be placed on vehicles. Next, the container can lie be arranged in a round or pear-like shape, or they can have a rectangular shape with rounded edges. For promoting the good From the containers to other stationary silos or the like. Are various types of pneumatic Funding known. In principle, the known pneumatic conveying devices can be divided into two different groups according to the way they work. One group of conveyors carries the goods downwards, namely by means of so-called outlet housings or outlet nozzles. Experience shows, however, that the Discharge downwards, i.e. through the outlet housing, at the lowest point of the container opposite the operation of the other group of conveyors that move the goods up discharge, has significant disadvantages, in particular has a higher energy requirement than the promotion to the top. The higher energy demand results from the strong Turbulence formation at the beginning of the delivery line, caused by poor loosening of the material, d. H. poor liquefaction of the material, and immediate bundled Air supply inside the outlet housing.

The well-known pneumatic conveying devices that transport the goods. after Promote at the top, consist of a loosening floor through which to loosen up the good air is blown from below into the good position, and a riser pipe, that extends from above into the good position up to a short distance above the loosening floor extends. The loosening air is caught in the upper part of the container and there results in a thermal pressure which loads on the material uX like a pressure piston works. This overpressure can optionally be achieved by further supplying compressed air can be added from above. Due to the pressure in the pressure vessel the fine material to be conveyed suspended in the loosening air behaves in a similar manner a liquid and rises in the riser pipe.

Around the goods to be conveyed within the container to the edge of the riser pipe To bring, it is on the one hand known to provide internals with an incline in the container and on the other hand to widen the riser in its lower part conically, to increase the catchment area. It is also used for pumping exposed Gutschüttungen a device known in which the Steigrollr-as a suction line formed and under the riser a loosening floor in the form of a small Cone arranged -is, the cavity of which is in communication with the outside air. at In this system, the outside air passes through the conical loosening plate into the good position, loosens it up and ensures that the loosened good gets through the suction line widened conically at its lower end is detected.

All these known conveying devices for vertical discharge of -staub- or koxnförmigem Gut have the significant disadvantage that either the The draw-in area of the riser pipe is too small or at the conical lower end of the riser pipe the leg guide into the pipe requires a considerable amount of energy, again caused by very strong turbulence formation. It has turned out that for the pneumatic conveying in pipes it is crucial that the flow conditions of the air carrying the dascrut in all parts of the pipe have to stay as smooth as possible.

With the known Vorridhtungen is either directly at the entrance in the riser or at the transition from the lower one. conical part into the Leftungsüohr a point at which the flow conditions change abruptly. The change of Flow conditions are due to the turbulence that occurs. Such sudden change, however, significantly reduces the efficiency of the device, because each. Turbulence means loss of energy. -.

These shortcomings are remedied according to the invention in that within An 'er.dräxlgerkegel is attached to the conical delivery nozzle of the riser.

This ensures that the intake area of the riser is essential can be enlarged without at the transition point of the conveyor cone cause considerable changes in the flow conditions in the delivery line. The material flowing in at the lower edge of the conveyor cone no longer collides with each other qx, but is geleiikt from an aerodynamic point of view, and-it will be through this deflection avoided turbulence build-ups. Do the same at the bottom The edge of the cone no longer shows as sharp changes in the flow conditions as before.

The cross-section necessary for the conveying capacity can be determined by the arrangement of the displacement cone can be designed as desired. To increase the flow rate To reach the conveyance over long distances, a - hnfang of the conveying line this type of cone can be reduced in cross-section. This results in a higher flow velocity achieved at the same pressure conditions. In the delivery line itself is a Maintain constant conveying speed, minus the friction losses that occur.

In practice it has also been shown that pure vertical law funding is not applicable in the vast majority of cases. Rather, it is in most In some cases it is necessary to divert the delivery line after exiting the container. This diversion takes place z. B. in cement transport vehicles consistently by means of hoses (Pressure delivery hoses). The radius of curvature resulting from the diversion holds if special devices are not attached to the container, in very small limits. Such bends with a small radius of curvature change in turn the flow conditions inside the delivery line are very significant, which is a considerable Decrease in the efficiency of the device results. These curvatures are therefore generally so harmful that the advantages of vertical conveying are compared the promotion downwards are practically lost again.

In order to avoid this disadvantage, according to the invention, the conical Conveyor nozzle placed with its cone center line at an angle to its open base and the displacer cone with its cone center line is the same as the cone center line attached to the feed nozzle. Such an advantageous attachment of the feed nozzle is completely impossible with the known devices, because an inclined, conical nozzle for picking up the goods to be conveyed not at all suitable would be because with such a nozzle the changes in the flow conditions to the described transition points would make the operation of the nozzle impossible.

In an expedient embodiment of the invention, the distance can be between the feed nozzle and the displacer cone very easily regulate that the delivery nozzle is adjustable in height relative to the displacement cone. These adjustable attachment of the feed nozzle allows material of different densities. and or or to promote different particle sizes.

Appropriately, according to the invention, the displacement cone within be arranged eccentrically of the feed nozzle. This eccentric arrangement is then advantageously adjusted so that the goods are discharged evenly on all sides causes. On the shorter side of the inclined feed nozzle, the Well done faster than on the other side. With an equiaxed arrangement of both cones, the conveying process only continues until the lower one The edge of the feed nozzle is exposed on its shorter side, d. i.e., the discharge of the Mate rials is not fully completed. The eccentric arrangement of the Displacement cone according to the invention, the conveying speed is the shorter Reduced nozzle side and accelerated on the longer nozzle side. The measure of Eccentricity can be selected depending on the nature of the delivery nozzle.

The base of the feed nozzle and the displacement cone is appropriate adapted to the surface shape of the loosening plate. With circular loosening plates, as used in conical containers, for example, is the base area the delivery nozzle and the displacement cone should be chosen appropriately circular. Is the- Loosening plate is oval or elliptical in shape, for example in the case of tiltable Boilers or the like, which are placed on an edge when emptied, so will also the base of the delivery nozzle and the displacement cone is expediently oval or chosen to be elliptical. This arrangement has the advantage that that on the loosening plate lying material is always evenly picked up and discharged by the feed nozzle.

The point of attachment of the delivery line to the delivery nozzle is located at the tip of the conical delivery nozzle, which for this purpose is either straight, d. H. is cut perpendicular to its center line of the cone. But it is also possible the tip of the conical delivery nozzle at the point of attachment of the delivery line at an angle to cut off to the center line of the kegd. With an inclined section of the nozzle or with inclined Care should be taken to ensure that there are no sharp edges at the point of attachment of the delivery line Bends arise, which according to the energy-saving effect of the conveyor device could reduce the invention again. The inclined approach of the delivery line has however, the advantage that the curvature of the delivery line within the container becomes smaller and the line emerges from it at a low point.

In the case of stationary systems, the inclined conveyor device appropriately attached according to the invention so that it is immediately in the conveying direction. This creates bends in the delivery line from the silo to the point of use avoided.

In the drawing, embodiments of the device according to the Invention shown for example. It shows Fig. 1 an inclined delivery nozzle with a corresponding displacement cone within a conical container, Fig. 2 a conveying device consisting of an inclined conveying nozzle with a displacement cone consists, as a discharge means from a tiltable boiler, Fig. 3 details of the Structure of the inclined, conical conveyor device, FIG. 4, to the conveyor nozzle eccentrically arranged displacement cone.

In Fig. 1, a conical container 1 for dusty or fine-grained good shown in section. The container is down through the aeration plate 2 completed by the compressed air to loosen the material from the pressure chamber 3 is blown into the interior of the container. On or just above the loosening plate the conveyor device is stored according to the invention.

This device consists of a delivery nozzle 4, a delivery line 5 or 5 'and a displacement cone 6.

The delivery nozzle 4 is designed as an inclined cone, d. i.e., their - midline is not perpendicular to the cone base, which is represented by the nozzle opening will. The nozzle opening is parallel to the loosening plate at a certain distance arranged by this. The delivery line is at the tip of the cone of the delivery nozzle 4 5 or 5 'attached. The tip of the cone is cut off at an angle for this purpose, see above that the center line of the delivery line is at an obtuse angle with the center line the feed nozzle forms. However, so that there is no sharp curvature, the point of attachment is 7 rounded. The delivery line 5 or 5 'is straight (shown in dashed lines) or in a curve with a large radius of curvature (fully extended) outwards and there with a slide 8 or 8 'and a coupling piece 9 or 9' for the other Provide delivery line. The displacement cone 6 is directly on the loosening plate and, like the delivery nozzle, has the shape of an inclined cone.

It is mounted eccentrically within the delivery nozzle 4, so that the Gap between the delivery nozzle and the displacement cone on the cone side is narrower than on the long side of the cone (see Fig. 4).

Fig. 2 shows a tiltable kettle with a conveyor is provided according to the invention. Here is the loosening plate 10 at the at Tilting attached to the deepest part of the boiler.

The space 11 between the loosening plate and the boiler wall is used as a pressure vessel for the loosening air. Above the loosening plate 10 is the obliquely conical delivery nozzle at a suitable distance 12 attached. The cone tip of the feed nozzle 12 is cut off at an angle and on with a large radius of curvature curved conveyor line 13 attached, which consists of the The rear wall of the boiler protrudes and there the slide 14 and the coupling piece 15 carries. As in the case of FIG. 1, the delivery line 13 'can also be straight here be executed (shown in dashed lines). The displacement cone 16 is as in Fig. 1 placed directly on the loosening plate 11, has the shape of an inclined cone and protrudes, as in Fig. 4 for an embodiment with a circular base is shown in a corresponding manner in the delivery nozzle so that the center lines both parts are laterally displaced to each other. The base of the displacer cone 16 and the feed nozzle 12 is the shape of the loosening plate - similar in area, d. H. oval shaped.

Fig. 3 shows the details of the conveyor device according to the invention in an embodiment as in Fig. 1. The container 1 is here again through the loosening plate 2 with the compressed air tank 3 completed at the bottom. The displacement cone 6 is placed directly on the loosening plate 2. It is designed as an inclined cone, d. H. its center line is not on that Loosening plate vertical. The base of the displacer cone is circular; the cone does not represent a body of revolution. The delivery nozzle is above the cone 4 set so that the distance 17 between it and the loosening plate 2 is free remain. Like the displacement cone 6, the feed nozzle 4 has the shape of an inclined cone, with a circular base. At the point 7 of their cut off at an angle (dashed indicated) tip is the slightly curved delivery line 5 attached, which consists of the Container leads out. The delivery nozzle 4 and the displacement cone 6 are eccentric attached to each other (see Fig. 4), so that the gap between these two parts is narrower at the shortest point of the cone than at the longest point. From the was standing of the two parts from one another is adjusted with a suitable holding device 18. The smallest distance is given by the spacers 19 on the displacement cone are attached and on which the feed nozzle rests. As for setting the distance the feed nozzle 4 is moved up and down, the feed line 5 is movable, however airtight by means of the inner sleeve 20 and the outer sleeve 21 in the container wall stored. Outside the container 1, the delivery line 5 carries the slide 8 and the coupling piece 9.

Fig. 4 shows the embodiment of the device according to FIG Section IV-IV and illustrates in particular the eccentric position of the displacement cone 6 inside the feed nozzle 4. The displacement cone 6 sits on the loosening plate 2, which is closed to the outside by the wall 22 of the container. Above that Displacement cone 6 is the delivery nozzle 4, the lower edge of which is shown in the figure is shown. The delivery line 5 indicated by dashed lines is on the side of the Conveyor nozzle 4 attached, at which the gap between the conveyor nozzle 4 and the displacement cone 6 is the closest.

PATENTANS PR If.CH E: 1. Conveyor device for emptying fine-grained and powdery material such as cement by means of compressed air from containers through a with a conical, arranged at a distance above the air-permeable container bottom Delivery line provided with a receiving nozzle, characterized in that within the conical delivery nozzle (4, 12) a displacement cone (6, 16) is attached.

Claims (1)

2. Conveyor device according to claim 1, characterized in that the conical delivery nozzle (4, 12) with its cone center line at an angle to its open Made base and the displacement cone (6, 16) with its cone center line at the same angle as the cone center line of the feed nozzle (4, 12) is attached. 3. Conveying device according to claim 1 and 2, characterized in that that the delivery nozzle (4, 12) can be adjusted in height relative to the displacement cone (6, 16) is. 4. Conveying device according to claim 1 to 3, characterized in that that the feed nozzle (4, 12) is arranged eccentrically to the displacement cone (6, 16). 5. Conveyor device according to claim 1 to 4, characterized in that that the lower base of the displacement cone (6, 16) and the feed nozzle (4, 12) is circular. 6. Conveyor device according to claim 1 to 4, characterized in that that the base of the displacement cone (6, 16) and the feed nozzle (4, 12) are oval or is elliptical. 7. Conveyor device according to claim 1 to 6, characterized in that that at the attachment point (7) of the delivery line (5, 5 'or 13, 13') the tip of the conical delivery nozzle (4, 12) is cut obliquely to the cone center line. Considered publications: German Patent Specifications No. 669 206, 764 638, 704 440; Belgian Patent Nos. 494 008, 519 139; french U.S. Patent No. 339,746.