DE1857478U - VENTILATED OUTLET CONE FOR STATIONARY OR MOBILE STORAGE BUNKERS. - Google Patents

Description

Vented outlet cone for stationary or mobile Storage bunker The innovation concerns a ventable outlet cone for stationary or mobile storage unit: he with a between an air duct enclosing a double jacket and with provided on the inner jacket, after removal Running towards grooved air inlets. b The proposal has already been made to form deer-like, ventilatable outlet cones by means of a one-piece, essentially conical outer jacket and an inner jacket, located at a distance in this, and consisting of a large number of conical rings that fit into one another. The conical rings of the inner jacket interlock like scales and each point along their lower edge slots or other openings on, through CD which passes through from the air space between the outer jacket and the inner jacket air under pressure to the inner surface of the discharge funnel and accelerates the dust-like bunker material in the direction of the bunker outlet. The downward tapering outlet cone is on its entire height, i.e. up to the point at which the same D. Permanent bunker cross-section begins, designed to be ventilated.

Apart from the fact that the well-known discharge cone through use the scale-like interlocking conical rings create a complicated and expensive one Structure, the known type of ventilation has defects insofar as it is proportionate small number of air inlets on too large an area in with considerable Distance one above the other arranged perforated wreaths lie to a sufficient Vortex aes bunker goods in the direction of the outlet. The by the few Air that flows in like a jet works itself in the Practice only in extending the openings in the bunker material tunnel-like channels free, while in the rest of the fact that there is a uniform outflow due to the formation of a manor bridge of the bunker is counteracted after the outlet.

It has been found that by simplifying the structure, the functioning of the ventilatable discharge cones can be improved and their efficiency can be increased significantly. According to the innovation, this can be achieved in a simple manner in that the ventable outlet cone extends only over a fraction of the height of the hopper funnel and the air inlet openings are provided close together and evenly distributed over the entire surface of its inner jacket. It is for them high efficiency contributing to the fact that the double CD jacket enclosed air space is divided by transverse walls into several, advantageously equally large sub-spaces, each of which is connected to a special air supply line. A stiffening of the cone without a reduction in the area allowing the passage of air occurs, according to the innovation, that the inner jacket is supported within each sub-space of the air space by at least one tubular body against the outer jacket and the tubular body on the circumference through openings for the air supply to the have areas of the inner jacket bounded by the tubular body. It an even air distribution is guaranteed, tD if, according to the innovation, baffles for the air flow are placed in front of the air supply lines opening into the individual sub-spaces of the air duct. An expedient embodiment of the ventilatable cone is also achieved in that the inner jacket is formed in a known manner by two conical perforated plates that are closely spaced one inside the other and a fine-meshed fabric insert enclosed between these and the air passage holes of the inner Locnbleches compared to those of the outer Have perforated sheet offset position. The air passage holes of the inner perforated plate can be provided with downwardly directed flow guide surfaces by means of flap-like or scoop-like formations.

It is also already part of the state of the art, the inner jacket of a ventable outlet cone by assembling plates made of porous ceramic material to build. It has been shown, however, that these porous ceramic plates with clog dusty bunker material relatively quickly and then its effect is lost. In addition, the porous ceramic plates are very expensive to manufacture, which a cone equipped with it becomes expensive. Another difficulty lies still in it, the ceramic plates were only in eons with a comparatively slight inclination can be relocated, because otherwise they easily lose their cohesion under load can.

Also compared to this known type of training for ventilable outlet cones that according to the innovation thus has considerable advantages.

The object of the innovation is shown in the drawing as an exemplary embodiment, with FIG. 1 showing the outlet cone according to the invention on a stationary storage bunker in vertical section and FIG. 2 showing the same outlet cone in plan view with the inner jacket taken and FIG The inner surface of the outlet cone according to FIG. 1 reproduces. The storage bunker or silo 1 consists, ie FIG. 1 can be recognized, essentially from the actual, Storage container 2 with a constant cross-section over its entire height and a funnel-shaped tapered part as an outlet cone for the storage bunker or silo 1 at its lower end.

The funnel-shaped tapered part 3 of the storage bunker or silo 1 has only a part of the height of the actual storage container 2 and is either fixed with this, e.g. B. by welding, or releasably, z. B. connected by means of ring flanges. The conical section expediently consists 3 of the storage bunker or silo 1 from several, z. B. two, conical pipe sections 4 and 5, which by means of flanges 6 and 7 with the interposition of sealing ring en 8 are sealed together.

The lower pipe section 5, which forms the funnel-shaped section 3, consists of the inner jacket 9, which forms the lower area of the inner guide surface of the conical section 3, and an outer jacket 10 surrounding this at a distance, with the inner jacket 9 and outer jacket 10 at both ends via spacer rings 11 and 12 are sealingly connected to one another and form an air space 13 between them. This air space 13 is divided by partition walls 14 running parallel to the direction of inclination of the conical jacket parts 9 and 10 into several, for example four sub-spaces 15, expediently of the same size, each of which has a special air supply line 16. flows out. The individual air supply lines 16 can - 4th either individually or from a common ring tion can be fed with compressed air, so that a completely uniform air distribution within the air space 13 CD entry. For the purpose of better air distribution within the individual sub-spaces 15 of the air space 13, baffle or guide plates 17 are spaced in front of the air supply lines 16 within each sub-space 15.

Apart from the spacer rings 11 and 12, the inner jacket 9 and the outer jacket 10 of the conical pipe section 5 are still within each of the subspaces 15 of the air space 13 stiffening against each other by spacers 18 ci supported. These spacers 18 are designed as tubes, each of which has a number of slot-like openings on its circumference, which allow air to flow in, so that an impact on the area of the inner tube lying within the tube circumference. jacket 9 is ensured with air. 0 The inner jacket 9 of the conical pipe section 5 consists, as can be seen particularly clearly from FIG. 3, in a manner known per se from two layers 20 and 21 evenly perforated sheets, namely the perforated CD b Sheet metal layers 20 and 21 so arranged relative to one another that the perforations 22 of one layer 20 and the intermediate webs 23 of the other layer 21 overlap one another.

Between the perforated sheet metal layers held at a small distance from one another 20 and 21, a fabric layer 24, advantageously consisting of canvas, is inserted and relaxed. The one introduced into the air space 13 or into its individual subspaces 15 This design of the inner jacket 9 gives air a completely even distribution, d. H. it flows evenly distributed over the entire height of the double jacket 9.10 into the interior of the container part forming the outlet cone of the storage bunker or silo 1 and places the bunker goods in a liquid-like manner in the direction of the discharge end Limbo. The flow condition in the direction after the bunker outlet is still going supported in a favorable manner when the inner perforated plate 21 in the area of each Perforation through lobe-like or scoop-like formations 24 downwardly directed flow guide surfaces receives.

From the drawing it can be seen that the designed as a double jacket 9,10, lower, conical pipe section 5 by means of the upper spacer ring forming the flange 7 11 on the flange 6 of the upper conical pipe section 4 connected is. The lower spacer ring 12 of the double jacket pipe section 5 forms the fastening flange for the extraction line to be connected to the bunker. While a z. B. by Welding made firm connection between the outer jacket 10 and the spacer rings 11 and 12 consists, the inner jacket 9 with the spacer rings 11 and 12 is mediated by clamping rings 26 and 27 detachably screwed.

Claims (1)

Protection claims 1. Ventable outlet cone for stationary or mobile storage bunkers with a double jacket enclosing an air duct between them and with air inlet openings provided on the inner jacket, directed towards the outlet end, characterized in that it extends only over a fraction of the height of the bunker funnel (3) and the air inlets (26) lying close together and evenly distributed CD are provided over the entire surface of the inner jacket (9). 2. Ventable outlet cone according to claim 1, d g e k e n n z e i c h n e t that the double jacket (9,10) enclosed air space (13) by transverse walls (14) divided into several subspaces (15), advantageously of equal size with one another each of which is connected to a special air supply line (16). 3. Ventilable cone according to claims 1 and 2, characterized in that the inner jacket (9) is supported within each sub-space (15) of the air space (13) by at least one tubular body (18) against the outer jacket (10) and the tubular body (18) has passage openings (19) on the circumference for the air supply to the points of the inner jacket (9) delimited by the tubular body (18). 11 "D 4. Ventable outlet cone according to claims 1 to 3, It is indicated that the air supply lines (16) tiring into the individual sub-spaces (15) of the air ducting space (13) are positioned at a distance from the deflector plate (17) for the air flow. 5. Ventilatable cone according to claims 1 to 4, d g e k e n n z e i c h n e t that the inner jacket (9) is made up of two closely spaced, conical perforated metal sheets (20, 21) and a fine-meshed sheet metal enclosed between them Fabric insert (24) is formed and thereby the air passage holes (22) of the inner Perforated plate (21) offset from those of the outer perforated plate (20) exhibit. 6. Ventilatable cone according to claims 1 to 5, d g e k e n n z e i c h e t that the air passage holes (22) of the inner perforated plate (21) by lobe-like or scoop-like formations (25) downwardly directed flow guide surfaces obtain.