DE967848C - Pneumatic conveyor chute - Google Patents

Description

Pneumatic conveyor trough The invention relates to a pneumatic conveyor trough, those for pumping dusty or fine-grained and essentially dry Well along the inclined bottom surface of the channel is used, with the conveyed material through Air or another suitable gas that can enter the Well penetrates, is brought into a flowable state.

It has been shown that the degree of air permeability of those Parts of the conveyor trough, over which the goods flow, for a trouble-free and uninterrupted Promotion is crucial. It was also found that a flexible air-permeable fabric with a relatively low permeability particularly suitable as a bottom layer for the conveyor trough.

According to the present invention there is a tightly woven, multi-ply Cotton cloth used in the manner of a cotton drive belt, which has a very high Volume resistance for air and at the same time the necessary mechanical strength owns. The degree of air permeability of the conveyor belt and for ventilation of the Good serving material must be within certain limits. The most important The condition is that the air permeability is so low that the material to be conveyed on the entire length of the channel is brought evenly into the flow state.

For this purpose, according to the invention, through 1 m2 of the channel bottom no more than about 2 mS / min. Air, but preferably 0.65 to 1.6 m3 / min. go through. When using such a dense fabric, the passage of z. B. I, 3 m3 / min. Air through 1 m2 a pressure drop of at least 30 mm WS between Bottom and top of the floor.

Embodiments of a conveyor trough according to the invention are shown in of the drawing, namely Fig. 1 shows a schematic side view the conveying trough with filling funnel and collecting container, FIG. 2 is a longitudinal section through the inlet end of the conveyor chute, on an enlarged scale, Fig. 3 is a cross section by the conveyor trough along the line 3-3 of Fig. 2, Fig. 4 a corresponding one Cross section through an open conveyor trough, FIG. 5 is a plan view of the conveyor trough according to Fig. I, with another embodiment of the air supply, Fig. 6 is a perspective View of a curved part of a conveyor trough.

The subject matter of the invention represents a substantial improvement as should be shown by the following description. The previous pneumatic Conveyor trough. consists of the actual conveyor trough I0, which takes the goods from the hopper II leads to the collecting container 12.

An air-permeable floor I3 extends from the inlet to the outlet end the channel as a conveyor track for the goods and divides the conveyor channel into an air channel 14 and a gutter conveying the goods 15. Compressed air is the air duct from a Fan 16 with motor drive I7 is supplied via a line IS. A special The advantage of this conveyor trough is that the air can be supplied at any point the air duct can be done, for. B. approximately in the middle of the channel through a supply line 19 (Fig. 5). The goods are conveyed through a cellular wheel at the upper end of the inclined channel or a similar known device according to the capabilities of the Conveyor channel fed.

At the outlet end, the channel is connected to a collecting container 12, which contains a vent device 2I. Escapes through the ventilation device the air entrained in the fluidized material into the atmosphere; in some In some cases, however, it may also be desirable to have the upper part of the conveyor trough with the To connect venting device.

According to the invention, the channel serves as an air-permeable intermediate floor a dense, multi-ply cotton fabric 22 (Fig. 3). In Fig. 4 is another example an open channel 24 formed by the walls 23 is shown. The conveyor trough is expediently made of individual pieces of a certain length, such as. B. 3 m, with flanges 25 made, from which a continuous channel of any length is composed can be.

The air-permeable floor is between side flanges 26 by means of Bolt held taut and is attached to transverse webs 27 between the side walls the conveyor chute are arranged and stretch the tissue in the longitudinal direction.

A suitably designed curved piece of the conveyor chute is shown in FIG. 6 with a fabric 22 according to the invention as an air-permeable partition that production due to its flexibility, strength and low air permeability and makes possible the use of elbows in conveyor troughs. The good flows with Passing through such a bend on its outer wall, often in a higher layer, so that at high conveying speed the fabric on the inner sheet sometimes remains uncovered. Despite this uneven layering of the property, the conveyor trough according to the invention but due to the low air permeability of the soil evenly further. When using the usual filter stones with relatively high air permeability on the other hand, so much air would pass through the uncovered wall parts that the rest Well it can no longer be made flowable.

In order to put the material in a flowable state, in general Uses air; In certain cases, however, according to the invention, an inert Gas in a heated or supercooled state, a gas mixture or a related to chemically active gas is used for the conveyed material. As a result, the expressions "Air" or "ventilation" is only used as an example and also applies to any other suitable gas.

As examples of how different types of goods can be compared with one according to the invention The conveyor trough can be made flowable and conveyed further, are also listed: Portland cement and other types of cement, limestone, dolomite, magnesite, silica, Clays including betonite, barite, gypsum, cryolite, bauxite, phosphate and apatite, Iron ore, talc, coal, soda ash, sodium phosphate, ammonium sulfate, granular Plastics, sugar and floury substances, etc.

It is obvious that the air permeability of a fabric is not is identical to its porosity and also in no particular proportion to it stands. The porosity expresses the ratio of the pore volume to the total volume of the fabric from; therefore, fabrics can have the same porosity as a result of the differences A very different air permeability in the width and number of pores, namely also have with regard to the distribution over a certain area of land. That as The fabric used in the gutter floor according to the invention is selected according to the principle that the fine air ducts on the entire floor surface in equal numbers and width must be distributed so that the introduction of air into the conveyed Well done as evenly as possible.

Another feature of the invention is that in comparison with volume resistance the material layer lying on the channel bottom has a relatively high volume resistance the air-permeable floor. Namely when the pressure drop within the material layer in comparison with the volume resistance of the soil is large, then a difference in the height of the material layer has an immediate and powerful effect on the amount of air flowing through this part of the floor. But if the other way around the soil has a very low air permeability, they also work in such pneumatic conveyor troughs, there are differences of 50 to 100 mm in the layer height does not interfere with the functioning of the conveyor trough. Caused for this reason in the case of the channel according to the invention, an accumulation of the goods at the inlet end is not an immediate one Flowing through of the air in less highly covered places of the channel, that with known pneumatic conveyor troughs often lead to blockages and subsequent overflow of the goods leads over the edge of the gutter. Furthermore, the invention empties Conveyor trough almost completely when the supply is turned off because through then uncovered floor area at the inlet end does not pass significantly more air than at the Outlet end, where the material is kept flowable until it is completely emptied.

Conveyor troughs produced according to the invention are thus emptied up to on a remaining layer of material of only about 12 mm, like numerous attempts have shown.

Some examples should highlight the importance of low air permeability of the multi-layer fabric according to the invention as an intermediate floor for the practical Show operation of a conveyor trough. When passing I, 3 m8 / min. Air through I m2 a simple cotton fabric resulted in a pressure drop of 23 mm WS, compared with a pressure drop of 66 mm WS, which occurs when air passes through a layer Portland cement from a height of 50 mm in a non-aerated state. The relationship the air resistance of the material layer and the bottom of the channel is almost 3. Although such a flexible cotton fabric has significant advantages over the brings conventional porous filter stones, there are disadvantages due to uneven Air distribution when starting and shutting down the conveyor trough and because of the Stopping the inflow of material to be conveyed in the channel, which is too large a residue. In contrast, a multi-ply, dense cotton fabric provided according to the invention with a high volume resistance for air when examining under the same Conditions the following results: Pressure drop with air passage through the fabric 130 mm WS, through a 50 mm high layer of cement 61 mm WS; Ratio of drag values so about 0.47.

Similar results were found for other fine-grained or floury substances Conditions; z. B. with ground barite 71 mm WS, with betonite 38 mm WS pressure drop in comparison with a multi-layer cotton fabric, in which the pressure drop is 104 mm WS was, corresponding to a ratio of the resistance values of o.68 and

0.37.

Further tests showed that the pressure drop on the passage of I, 3 m3 / min. Air through I m2 of a flexible, air-permeable channel bottom should be much larger than with air passage by I m2 of a non-ventilated material layer lying on the channel bottom 50 mm high; d. H. the ratio of the resistance values of the material layer and Trough bottom should be smaller than r, when using covered conveyor troughs with a height of the material layer of 50 to mm, generally 1.3 to 1.6m3 / min. to I m2 and pressures of 100 to 300 mm WS in the air duct for effective conveyance second hand; even higher pressures are required for some conveyed goods. at open conveyor troughs and higher layer heights come pressures of 300 to 500 mm water column and about it in question.

PATENT APPEAL: I. Pneumatic conveyor trough for dusty or fine-grained and essentially dry goods, permeable to air through their slightly inclined Soil a gaseous pressure medium is introduced into the good, characterized in that that the flexible material forming at least part of a wall of the conveyor chute has such a low air permeability that no more than about 2 m3 / min. Air, but preferably 0.65 to 1.6 m3 / min., with a pressure difference of 50 mm water column between Go through the bottom and top through 1 m2 of the fabric, so that when you go through I, 3 m3 / min.

Air through 1 m2 of the floor a pressure drop of at least 30 mm water column arises.

Claims (1)

2. Conveyor trough according to claim I, characterized in that the ratio the resistance value for the passage of air through a non-ventilated dormant Layer of the goods from a height of 50 mm to the resistance value of the air-permeable floor is always less than I. 3. Conveyor chute according to claim I, characterized in that the air-permeable Fabric for the bottom or the side walls preferably made of a multi-layered seal Fabric, in the manner of a cotton drive belt, is made. References considered: U.S. Patent No. 23I68I4; French Patent No. 88I 532; Chemiker-Zeitung, 1938, pp. 358 to 360.