DE3151841A1 - Tower silo closed off in an air-tight manner - Google Patents

Description

Engelbrecht -t Lemmerbrock. GmbH + Co ,, Neuerostrasse, 452o mile 1

Airtight silo

The invention relates to a hermetically sealed tower silo according to the preamble of claim 1.

Gastight high silos, those with goods that do not trickle by themselves are charged and filled, contain an inert gas of nitrogen and carbon dioxide in the free upper space, Which the latter is caused by microbes from the oxygen in the air on the surface of the product through the decomposition of the im The good contained in the silo has been produced. This inert gas forms a protective gas for that contained in the silo Good. Silos of the type in question are equipped with breathing bags in the silo or outside the silo, the gas volume fluctuations in the upper space of the silo due to expansion or contraction as a result of temperature fluctuations in the surrounding area Air, e.g. between day and night temperatures, solar radiation or the like, balance in order to thereby to avoid oxygen supply via the vacuum valve or to prevent the escape of inert gases through the pressure relief valve. As far as the gradual removal of feed over months

If the silo comes out of the silo, it can get through, the sensitive one Vacuum valve air flowing into the silo, both small amounts are neglected, especially since the air and 80% nitrogen are only 20% Contains oxygen, which could lead to rotting of the silo.

But is now due to the erosion of the upper layers Conveyor organs feed the goods from the silo to the middle fall shaft, so the falling goods act in the fall shaft practically like a piston in a cylinder and pushes inert gas over the chute and the lower conveyor into the open, so that then appropriate amounts of air or oxygen via the vacuum valve flow into the upper space of the silo, which gives the ever-present microbes the opportunity to feed the feed to decompose the upper class.

The object of the invention is therefore, when removing the goods from the silo with free fall through the

middle shaft and lower intake to prevent a supply of external fresh air into the upper space of the silo, as far as not through, the gradual reduction of the crop height in the silo, Outside air must flow through the vacuum valve. 25th

This object is achieved according to the invention in that in the case of the airtight seal mentioned at the beginning

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Silo the chute at the lower end or the discharge conveyor The receiving channel is connected to the upper space of the silo via a compensating pipe.

In this way, inert gas from the silo ·? · Which is located in the Fa 11 shaft, is passed through that in the shaft Falling material is immediately returned to the upper safety space and thus to the drop shaft via the equalizing pipeline, without that the vacuum valve with oxygen supply in the upper space of the silo responds opening.

The installation of the compensation pipeline can be done in different ways Manner as explained below.

The invention is explained with reference to the drawing in which two exemplary embodiments are shown, and although they show

Figures] and 2 seminal vertical sections through a high silo with different

Arrangement of the compensation pipeline according to the invention.

According to Fig. 1, the hermetically sealed high silo 1 can be closed airtightly via an only partially shown Pneumatic conveying line 2 with a non-self-trickling good 3, e.g. fine or coarse meal from Corn-rCob-Mix, below

% CCM designated, loaded. The silo lid is provided in a known manner with a pressure relief valve 4 and a vacuum valve 5, and the upper space 6 is connected to a breathing bag 7 on the outside in FIG to balance the surrounding air.

Over the height of the silo 1 or at least over the height of the goods 3 introduced into the silo, a vertical-center chute 9 runs over its entire length Height is accessible radially, and below which a conveyor 1o delivering the falling material to the outside is advantageous a screw conveyor is mounted. The drop shaft consists e.g. of a pipe with any cross-section, which is provided with openings over the entire height of the shaft, of which at least one is in each The height of the respective material level, which is decreasing due to removal, is located, as in patent application P 31 35 439.4 is shown and described.

Above the good 3 are known liftable and lowerable Conveying organs 11 are provided, which can be periodically put into circulation and which in each case take the goods from the outside as they circulate

remove in layers towards the chute 9, with the material is conveyed between the ring disks or through the manhole openings in the manhole and in it falls down to be removed by the conveyor 1o. 5

The Silooberraum 6 contains an inert gas which zusammesetζt from nitrogen and carbon dioxide, the latter is always present by what the microbes ^ n chute 9 and oxygen contained in the upper part 3 of the air by decomposition of the material

or convert the feed in the silo into carbon dioxide.

If now upper layers of the lining 3 are removed by the conveyor elements 11, the removed material falls Well in the shaft 9 down and push that in the shaft 5 contained inert gas so far via the take-off conveyor ίο ins Free, and then via the sensitive negative pressure valve 5, atmospheric oxygen into the upper space 6 flows in, which leads to a decomposition of the lining in the upper layer.

To now according to the invention the volume of the inert gas To be maintained as far as possible in the upper silo space 6 is the channel receiving the take-off conveyor Io or the tube of the screw conveyor Io via a piece of pipe 12 connected to the pipe 8 of the Atenjsack 7 leading to the upper space of the silo, with which the case of the Good inert gas pressed down in shaft 9 over

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a.

the delivery channel Io and the equalizing pipeline Serving pipe parts 12 and 8 is returned to the upper silo space 6, whereby the inert gas volume in the Upper room 6 is kept almost constant. Small amounts of outside air with 80% nitrogen and 20% oxygen flow through the layer-by-layer breakdown of the feed the conveying elements 11 through the vacuum valve 5 after, but that amount of oxygen is negligible, anyway when the layer-by-layer emptying of the silo extends over months, as is generally the case the case is.

In order to avoid that the inert gas pushed away by the material falling in the shaft is influenced by the contents of the breathing bag 7, the outlet 7a of the breathing bag 7 is provided with a blocking element 13, which is activated by a control when the conveying elements 11 begin to circulate is brought vnä, during the running time of the conveyor elements 11, the exit 7a is closed.

2q sen holds. Such a control can also be used in the case of the Design according to FIG. 2 are provided and also with breathing bags that are housed in the upper space of the silo, their Output, however, is in contact with the outside air. One can proceed according to FIG. 1 in such a way that omitting the pipe part connected to the pipeline 8 12 connected to the lower end of the chute 9, an outwardly guided pipe 14 or the like with which then a dashed line in

Equalizing pipeline 15 opening into the silo interior space 6 is connected to the inert gas in the upper space of the silo 6 to redirect. The equalizing pipeline 15 can also connected to the worm housing Io, if this is desired, but then the tube 14 is on To close the outer end.

According to FIG. 2, in the same parts of FIG. 1 with are provided with the same reference numerals, is for the back-

3ο guidance of the inert gas into the upper space of the silo 3.im Fall shaft 9 a compensating pipe 16 running from bottom to top mounted, which in the upper space of the silo 6 opens. This compensating pipeline is advantageous 16, distributed over the entire height / with openings ver-5 see, which are indicated in the drawing by small circles, whereby the falling down of the Any positive pressure building up in the shaft 9 is immediately reduced again without the inert gas entering the silo container leaves.

It is possible to also use the breathing bag 7 in a known manner to be accommodated in the upper silo space 6 and instead of the disk-shaped conveying elements 11 shown, any to use known funding bodies.

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Claims (8)

Expectations 1. Airtight, with upper pressure relief and vacuum valve as well as a high silo equipped with a breathing bag for receiving goods that do not trickle by themselves, such as finely or coarsely ground CCM, the circulating conveying organs that remove a top layer of material for feeding the goods to a chute accessible over the entire height of the goods and one in the chute Falling good at the lower end of the shaft decreasing outwards, working in a channel 1Q conveyor, especially a screw conveyor is, characterized in that the folding chute (9) at the lower end or the sewing conveyor (1o) receiving channel via a compensating pipe (12-8.3 5.3 6) is connected to the upper space (6) of the silo (1). 2. Silo according to claim 1, characterized in that the compensating pipe (12-8,15) between the lower end of the chute (9) or the discharge channel (1o) to the upper silo space (6) outside of the silo (1). 3, silo after. Claim 1, characterized in that the compensating pipeline (16) consists of a pipe (16) mounted in the chute (9) and opening into the upper chamber (6).
5 4. Silo according to claim 3, characterized in that the compensating pipe (16) distributed over its height is provided with openings. 5. Silo according to one of claims 1 to 4, characterized in that when arranged outside the silo Breathing bag (7) the pipeline (8) from the breathing bag to the upper space of the silo (6) as part of the compensation pipeline (12-8) is used. 6. Silo according to claim 1 or 2, characterized in that starting from the lower end of the chute (9) a radial pipeline (14) is laid to the outside, to which the equalizing pipeline leading to the upper silo space (6) (15) is connected. 7. Silo according to one of claims 1 to 6, characterized in that that the connection (7a) from the breathing bag (7) provided outside the silo to the SiIo- upper space (6) is provided with a blocking element 0 3), which removes the top layer of goods during the working -3 - lowing conveying organs (11) is switched to the blocking position. 8. Silo according to one of claims 1 to 4 and 6, characterized in that that when the breathing bag is placed in the upper space of the silo (6) its connection to the outside air with a Locking element (13) is provided, which during the working period of the conveying elements (11) removing the top layer of material is switched to the blocking position.