DE592658C - Duese with suction air conveyors for bulk material with controllable access of secondary air directly into the conveying pipe - Google Patents

Description

Nozzle on suction air conveyors for bulk goods with adjustable access from Secondary air directly into the delivery pipe The invention relates to a suction nozzle for suction air conveying devices for conveying grain and other bulk goods by means of suction air from a lower room to a higher one. Such Devices will be. is known to be widely used when unloading ships.

There are suction nozzles known in which the lower end of the actual Conveyor pipe is surrounded by an open-topped pipe or jacket, both of which are one certain "space in between." Secondary air can flow through this space from the outside, depending on the construction of the nozzle, get into the conveyed material or conveying pipe. at To some of these nozzles, the entry of the secondary air cannot be regulated at all; As a result, these nozzles can not all delivery conditions, in particular not be adapted to conveyed goods of any kind. With other suction nozzles with controllable admission of the secondary air, it passes through the between the conveyor pipe and the outer jacket but not directly in the delivery pipe, but only in the bulk goods to be transported. However, this makes secondary air useless is lost and is not used to the full beneficial extent for the conveying process. With other suction nozzles, because the secondary air through the said gap has direct access to the conveying pipe, however, those at the previous ones intersect Establish air currents entering the conveyor pipe in a disadvantageous manner, so that also because of this the suction power of these air currents is uselessly lost.

Compared to the known suction nozzles, there is the essence of the invention in that the surrounding the actual conveyor pipe while maintaining a gap Pipe jacket below by a centrally located in it, tapering upwards, frustoconical bottom is completed, its upper opening with the lower Opening of an intermediate pipe section which is axially displaceable in the lower end of the delivery pipe an adjustable ring cross-section for the entry of the secondary air approximately in the conveying direction forms in the conveyor pipe. The lower part of the intermediate pipe section is downwards to widen and after the end to gradually increase the slope of the conical bottom of the The jacket pipe is adjusted and slips over the upper opening of the conical bottom Preservation of the ring-shaped inlet cross-section.

This creates a nozzle, the main advantage of which is that that it is more powerful than the well-known suction nozzles. Because secondary air works not lost uselessly because this has direct access to the delivery pipe and is not first passed through the bulk material. A crossing of partial secondary airflows inside the delivery pipe is excluded. Access to secondary air is also adjustable by means of the intermediate pipe piece, so that the suction nozzle all can be adapted to any funding conditions. There is a special benefit in that by means of the conical bottom of the jacket tube and one of this at the bottom At the end of the aligned intermediate pipe section the secondary air without any crossings of partial air flows, as with the known suction nozzles, approximately in an upward direction directed cylinder is introduced into the delivery pipe that they are approximately the same runs with the conveying direction or suction direction. This allows the secondary air and in general the suction nozzle is generally its largest possible. Evoke performance, which is larger than the known suction nozzles.

The much greater power compared to the suction nozzle according to the invention the well-known suction nozzles is of particular advantage for systems with turbo fans to be driven. The latter are considerably more sensitive to fluctuations in the sucked in air volume than corresponding piston machines.

Furthermore, the lower inlet cross-section is the bottom for the bulk material -, at least twice as large, its upper opening about the same size as the cross-section of the delivery pipe. These conditions contribute to the increase in the performance of the nozzle and allow the use of turbo fans without difficulty, which yes, if they are not to be overloaded too easily, require that the bulk quantity in the mouth of the suction nozzle is fairly constant.

Finally, the angle between the gate side and the base of the frustoconical Bottom less than 7o '. In addition to the advantages mentioned, this also achieves the that the bulk material does not get stuck in a lump in the delivery pipe, what else easily occurs at a greater angle of inclination. As a result, one can also harbor or other sluggish bulk material without any operational disruptions.

In the drawing is an embodiment of the suction nozzle according to the Invention shown. The lower end of the delivery pipe i is outside from a top open, tubular jacket, surrounded by the pipe end of the suction nozzle forms. There is an air gap between the jacket 2 and the delivery pipe i. The jacket z has a tightly closing, frustoconical bottom at the bottom 3, which sits centrally in the jacket -2 and tapers upwards. At the upper end the conical bottom 3 has an opening .4, which is about the same size as the U section of the delivery pipe i, while the lower inlet cross section of the bottom 3 for the bulk material is at least twice as large as that of the conveyor pipe i. in the At the lower end of the delivery pipe i, an intermediate pipe section 6 is axially displaceable arranged, the lower opening 5 with the upper opening q. of the conical shell bottom 3 an adjustable ring cross-section for the entry of the secondary air approximately in the conveying direction forms in the conveyor pipe. The intermediate pipe section 6 can be lifted by means of rods 7 and be lowered.

While the suction nozzle is working, the jacket tube 2 is at the bottom in the bulk material, and this extends approximately up to 1% 3 of the height of the jacket pipe 2. The The vacuum prevailing in the conveying pipe i sucks air through the casing pipe 2 bypassing it Grain mass into the conveyor pipe i. So there is a flow of air through the opening q. through, which loosens up the bulk material in the conveyor pipe i, and at least carries a piece. But this is facilitated by the fact that air is also between the tubes i and -2 is sucked in, which enters the jacket 2 above at 8 and by force @; oll the opening 5 happens because of the resistance in the space between the two tubes i and 2 is insignificant. This secondary air, which in large : Amounts can occur, pulls the grains with it, which as a result through the whole conveyor pipe i are carried up.

The speed is at the upper opening 4 of the conical casing base 3 the air entering the nozzle from below is greatest because of the cross-section of the passage of the conical bottom is smallest at its upper opening. Since the air coming from above between pipes i and 2 before it enters the opening 5 between the bottom 3 and the lower mouth of the delivery pipe i along the top of the frustoconical bottom 3 strokes, this is secondary air directed approximately in the upward direction which the grains during their guidance in the pipeline. These two circumstances mean that the Suction nozzle gives a better performance, which also the practical testing in operation has confirmed.

It is important that the lower part of the pipe section 6 expands is, so that between this part and the upper end of the cone bottom 3 an annular Space is formed which is constant during the vertical understanding of the pipe section 6 is increased from a minimum to a maximum or vice versa, to regulate the amount of air that is drawn in there. It's about this Purposes necessary that parts i, 3 and 6 are arranged separately from each other, so that a settlement can really take place.

In addition, the shape of the lower end of the pipe section 6 should be such be that they have a conical mantle with different pitch angles owns. Namely, it is also important to use the bottom 3 for different types of conveyed goods to be able to replace. Depending on the nature of the conveyed material, such a Floor 3 used with a more or less steep slope.

Finally, it is also important that the bottom 3 is sufficient is far, for example at least twice as far as the delivery pipe i. That the The bottom should be so wide, should also depend on the choice of suction gear, which is more sensitive to fluctuations in the amount of air drawn in when a fan is used is used as if a piston machine is making the vacuum. In the latter case the machine works with little power consumption when there is a relatively large amount of air enters the pipeline or there is little material in front of the @ suction nozzle, while a turbo fan is easily overloaded if the amount of material to be conveyed becomes small at the mouth of the suction nozzle, d. H. when a lot of air is sucked in. That's why the use of a turbo fan requires that the amount of material to be conveyed in the suction nozzle mouth remains pretty constant. This is achieved when the bottom 3 below does not is too small.

This bottom 3 must not have too steep a cone angle. Because if it approaches the cylindrical shape, the conveyed goods can get stuck more easily. This would be the case if the delivery pipe i were not equipped with a suction nozzle. Because it is possible to suck up bulk material with a simple delivery pipe i without a suction nozzle. then but it can easily get stuck in a lump, especially if it is port or otherwise is inert bulk material. Therefore, the slope of the floor 3 should be large enough, i. H. the angle of inclination to the horizontal plane should not be greater than 7o '.

The suction nozzle with pipeline can be raised and lowered as usual, in order to adapt to the level of the material to be conveyed up. When the suction nozzle has reached the floor, it should not reach the bottom opening completely can close. For this purpose, the nozzle is below in a known manner with stops or feet 9 provided, which the nozzle in the permissible 'minimum distance to Hold ground.

Claims (2)

PATENT CLAIMS: i. Nozzle with suction air conveyors for bulk material well with Controllable admission of secondary air directly into the conveyor pipe, the latter is surrounded at its lower end with a tube or jacket open at the top, thereby characterized in that the pipe jacket (2) down through a center in it upwards tapered, frustoconical bottom (3) is completed, the upper Opening (4.) with the lower opening (g) one in the lower end of the conveyor pipe (i) the axially displaceable intermediate pipe section (6) has an adjustable ring cross-section forms for the entry of the secondary air approximately in the conveying direction into the conveying pipe (i). 2. Nozzle according to claim i, characterized in that the lower part of the intermediate pipe section (6) to widen downwards and after the end to gradually increase the slope of the conical Bottom (3) of the jacket tube (2) is aligned and its upper opening (q.) Below Protects the ring-shaped inlet cross-section.