DE814285C - Compressed air delivery tube, especially for blow offset - Google Patents

Description

In order to pass on the blow offset, tubes from circular cross-section in use. The measurements of the air consumption at home Bubbles of the offset result in the promotion of the offset by the compressed air the main part of the pipe is filled with air.

With an air consumption of 100 cbm of sucked air for conveyance of I cbm backfill would result if approximately the same speed is assumed of blown air and backfill in the pipe show that at It / 2 atmospheric pressure in the pipe the Air occupies forty times the volume of the displacement. Like this volume through it be less that the speed of the displacement is less than the mean Speed of the air, there is no doubt that on average only the bottom of a circular tube is covered with an offset, if you are at the well the undisputed assumption that the good, following the force of gravity, is in usually remains at the bottom of the pipe. An increase in the amount of offset in proportion experience has shown that the blown air leads to blockages of the Lines enter, so that in any case while maintaining the circular cross-section the pipes to a more favorable choice of this ratio, d. H. of a degradation the amount of compressed air used per cbm offset is inconceivable.

On the other hand, experience with fine-grain blown material shows, in particular with sand that the influence of the moving air is very difficult through the blown material in whose deeper layers penetrate, so that one is always with a low layer height in this case must work.

These considerations lead to the proposal, according to the invention of circular cross-section for compressed air delivery pipes and to use a pipe, which has a larger base area with the same cross section, so the one has greater extension in the horizontal than in the vertical direction. There on the other hand assume the constant influence of gravity even when blowing the conveyed material is, the pipe should also have a bottom surface, so that the material is evenly can distribute over this and everywhere the air flow in the same strength on the property acts.

Applying the inventive concept to preference the horizontal extension compared to the vertical is in this respect a limit set, as the height extension must in no way be less than the highest permissible particle size of the conveyed material so that blockages are avoided. Corners and sharp bends are also to be avoided in the pipe cross-section because they can give rise to blockages. The subject of the invention is in the drawing explained in more detail. First Fig. I shows a blow pipe with a circular Cross-section at the bottom of which the average product filling is indicated during normal operation is.

If the offset amount is increased compared to the air amount, as shown in Fig. 2 represents, in general, trouble-free operation is no longer possible calculate. This is obviously due to the fact that the influence of the blown air is not is able to penetrate deeper into the material, so that one reaches a certain maximum layer height is bound.

While maintaining this greatest layer height, as shown in Fig. 1 is illustrated in Fig. 3 is the cross section of an approximately rectangular tube shown, the greater extent of which lies in the horizontal direction. For the attack of the compressed air on the conveyed material is a significantly larger surface here available, below which the material is stored in approximately the same layer height, while in the case of the circular pipe according to Fig. I, the layer height after the side walls of the Rbhres to more and more decreases.

In the cross-section of Fig. 4, the corners of the rectangle are stronger rounded off, which should be beneficial with regard to the flow conditions.

The elliptical cross-section according to Fig. 5 has compared to the circular a larger floor area with the same cross-section, but also suffers from that Disadvantage of the circular tube, as the layer height decreases towards the edge, The performance of the pipe is therefore determined by the mean layer height.

In the cross-sectional shape of Fig. 6, the cross-section is in the lower part of Fig. 4 is selected, while the upper half of the tube is arch-like is, whereby a smaller flow cross-section with a uniform smaller Layer height of the conveyed material results.

The choice of the suitable cross-section does of course not only depend on the greatest possible ratio between the conveyed material and the required amount of sucked in air from, but also from the simple way of producing such pipe cross-sections and the attachment of suitable couplings for using the same.

PATENT CLAIMS: I. Use of a tube with a larger extension of the cross-section in the horizontal and vertical direction to the compressed air delivery, especially for blow offset.

Claims (1)

2. Compressed air conveyor according to claim I with a flat bottom surface.