NL9002891A - Forced-draught composting equipment - has perforated holder inside vessel with central perforated air supply tube - Google Patents

Abstract

Equipment is supplied with air by forced draught, having a fan and air feed conduit with a perforated wall section. It incorporates a vessel with closed peripheral wall, bottom and cover, and which can be sealed off. A tubular holder inserted in the tubular vesel has a peripheral wall perforated for part at least of its height, and with a perforated bottom. A tube mounted centrally in the holder has a wall perforated for part of its height, together with a closed and an open end. Between the bottoms of vessel and holder is an air feed passage, freely connected to the open end of the tube and to an air feed passage between their peripheral walls. The passages are connected to the pressure side of the fan. Near the vessel cover is an air outlet from the holder.

Description

Title: Composting device with means for a forced air supply

The invention relates to a composting device with means for a forced air supply provided with a fan and an air supply channel with a perforated wall part.

In such a known device, a pouring surface for material to be composted is provided, at least part of that pouring surface being formed by a perforated surface, which forms the wall of an air supply channel, through which air is blown by means of a fan in order to have the composting effect in the poured mountain of material. to accelerate relative to a non-forced aerated amount of decomposed material. Despite the forced aeration, the material has to be converted or loosened several times to limit the composting time up to approx. 4 months, that is to say the mountain of material has to be excavated and the landfills are dumped again, which is a labor-intensive and less pleasant activity. A further problem with this composting method is the relatively large surface area occupied by the various mountains to be composed.

The object of the invention is to provide a composting device with which composting can be carried out considerably faster and which takes up relatively little space.

This is achieved according to the invention in that the device is provided with - a closable, tubular vessel with a closed circumferential wall, a lid and a bottom - a tubular holder placed in the vessel with at least part of its height perforated circumferential wall and a perforated bottom, and - a tube arranged centrally within the container, with a wall perforated at least over part of its height, one closed and one open end, wherein at least one air supply channel is present between the bottom of the vessel and the bottom of the container, which is in open communication with the open end of the tube and with at least one air supply channel between the circumferential wall of the vessel and the circumferential wall of the container, which duct system communicates with the pressure side of the fan, while an air outlet from the container is provided near the lid of the vessel fitted.

These measures provide a very versatile, forced aeration. After all, this takes place from both the bottom and the outer peripheral surface as well as from the center of the container, whereby an optimally functioning composting process is obtained, which can be completed in a few weeks instead of a few months. In addition, the composting device gives the material to be composted in a precisely circumscribed configuration, so that a number of such containers can be arranged close to each other, so that optimum use of the available surface is obtained. Because of the optimum aeration, relatively high holders can be used, which makes it possible to reduce the required surface area by a factor of 5 to 6 compared to the state of the art, partly because conversion or loosening can be omitted.

In order to obtain as even as possible forced ventilation over the entire height of the container, the total air passage area can become smaller as the container is viewed at a higher level. However, a good result is also already obtainable if, according to a further embodiment of the invention, the circumferential wall of the tubular container, viewed from the lid of the vessel, is not provided with perforations about a quarter of its height, apart from that for the connection with the air discharge. .

To achieve the composting effect, fresh air can be continuously drawn in from the environment. Likewise, there may be situations related to temperature and humidity of the air that adversely affect the composting effect. If, according to a further embodiment of the invention, provision is made in the exhaust air for a control valve which connects the exhaust pipe to the environment or to the suction side of the fan or to both the environment and the suction side of the fan, the possibility has been created to remove or at least mitigate the aforementioned adverse factors.

The exhausted air may have a less pleasant odor. In that case, according to a further embodiment of the invention, it is preferable that a filter is included in the air outlet for the control valve, which is provided with an extendable drawer with an at least partly perforated bottom, which is flowing through the filter must be passed, with a layer of composted material to be stored in the drawer. In this way, the exhaust air can be stripped of its less pleasant odor by using composted material, which can come from the composting device itself.

Water will seep out of the treated material during composting. In addition, the temperature of the treated material will rise during the process. Both conditions can be used in combination for good process control if, in accordance with a further embodiment of the invention, the bottom of the vessel is designed as a receptacle for water trickling from the container and is provided with a water outlet which is connected to a pump, to which a water pipe connects, a part of which extends centrally through the pipe, which part is provided with spray nozzles which reach into the container surrounding the pipe.

If the seepage water is insufficient, supplementary water can be used if an additional, external water supply is connected to the pump.

Accordingly, in order to minimize the surface area occupied by the composting device, it is preferable for a further embodiment of the invention to include device elements such as the fan, the filter and the pump in addition to the vessel with container and tube. with a circumferential wall substantially corresponding to that of the vessel and adjoining it at the bottom of the vessel. Such a compact device can be handled optimally if the circumferential wall of the vessel is provided on its outside with gripping means for lifting and / or tilting the vessel. In this way the composting device is easy to move and to empty.

According to a further embodiment of the invention, in order to obtain a well-functioning and robust construction in a relatively simple manner, it can be provided that the circumferential wall of the vessel has a wave-shaped configuration in cross-section, wherein the circumferential wall of the container makes contact with the inwardly facing wave crests to form a large number of channels, which can serve as lateral air supply channels. In addition, if at least one of the channels forms the closed surface formed by the container, which has a breach near the lid of the vessel, which connects the channel thus formed to the interior of the container, an air outlet from the container is further advantageously provided. .

The invention will now be further discussed and explained with reference to an exemplary embodiment shown in the drawing. In the drawing: Fig. 1 shows a cross-section along the line I-I in Fig. 2, a composting device according to the invention; fig. 2 shows a section according to the line II-II in fig. 1; andfig. 3 is an enlarged detail of the decomposer according to FIGS. 1 and 2.

The composting device shown in the drawing is built up from a vessel 1, which has a square cross-section and is provided at its top end with a lid 2, which can be folded away by means of hinges 3. The interior of the vessel 1 is divided by an intermediate bottom 4 into an upper composting section and a lower section for auxiliary elements.

In the upper composting section, a central tubular container 5 is arranged, which also has a square cross-section, which is smaller than that of the vessel 1, while the height of the container 5 is smaller than that of the interior of the vessel between the lid 2 and the intermediate bottom 4, wherein the holder 5 is arranged within the vessel, such that there remains a free space between the vessel wall and the container wall and between the vessel bottoms of the container bottom, while the top of the container connects to the lid 2. The container 5 is provided with a perforated bottom wall and a largely perforated circumferential wall; only the upper area of the container wall adjoining the lid 2 is made closed. Centrally within the vessel 1 and the container 5 is arranged over the height of the latter a tube 6, which at one end is in open communication with the free space between the vessel intermediate bottom and the container bottom and is closed at its other end, which can be done by means of the lid 2 or by means of a separate closing wall 7. The tube 6 is provided for substantially the same heights as the container 5 with a perforated or closed peripheral wall.

Near its upper end, the container wall is provided with at least one breach, which forms a drain 8, to which connects a drain channel 9, which extends into the lower compartment of the vessel 1 and opens there into one cross channel 10. Reach into the transverse channel 10 a pair of tube stubs 11, which form part of a filter drawer 12, which is divided by means of a perforated transverse bottom 13 into a bottom compartment and a top compartment. The tube stubs 11 open into the bottom compartment, while the top compartment contains a filter element 14, preferably in the form of a layer of already composted material. The filter drawer 12 is located in a first, by means of a transverse wall 15 of a second part separated from the lower compartment, which communicates with the environment by means of a channel 16 and a grate 17. A control valve 18 is provided in the wall of the channel 16, by means of which a connection can be made between the space above the filter drawer 12 open at the top and the second part of the lower compartment, which is separated by means of the partition wall 15 from the first part that contains the filter tray 12. The second part of the lower compartment communicates with the environment through a grid 19.

A fan 20 is arranged in the second part of the lower compartment, the suction side of which is in open communication with the said second part and the discharge side opens into a channel 21, which opens into the free space between the vessel intermediate bottom and the container bottom. A water discharge opening is provided in the vessel intermediate bottom, which connects to a discharge pipe 22, which runs to a pump 23, to which a fresh water supply 24 also connects, which, like the discharge pipe 22, opens on the suction side of the pump 23. On the discharge side of the pump connect a water pipe 25, which runs from the lower compartment through the intermediate bottom 4 to the upper compartment and extends centrally therein in the tube 6. At different levels within the tube 6, the water pipe 25 is provided with spray nozzles 26, which reach into the container 5. The vessel 1 is provided on its outside with lifting and tilting provisions 27.

The composting of material is done as follows. After opening the lid 2, the container 5 is filled with material 28 to be composted to a level above the perforated wall part of the container 5, but to below the discharge 8. After closing the lid 2, the fan 20 can be started, which via the channel 21 air blows into the free space between the vessel 1 and the container 5 as well as into the tube 6. From these spaces, the air penetrates through the perforated walls into the material to be composted, which means that the air is almost all-round and even and thus optimally aerated. can be kept at the ideal temperature. It is noted that this does not require constant airing, but that the fan 20 usually only has to be switched on periodically, depending inter alia on the temperature in the container 5. The air enters the upper part of the material to be composted. the holder 5 rightly flows and flows via the outlet 8, the outlet channel 9, the cross channel 10 and the pipe stubs 11 into the bottom compartment of the filter drawer 12. The air enters the filter element 14 in the top compartment of the filter drawer 12 via the perforated transverse bottom 13. Less pleasant odors are emptied when the filter element flows through. Depending on the position of the control valve 18, the filtered air is exhausted from the top of the filter drawer 12 via the duct 16 and the grille 17, or is wholly or partly returned to the fan 20.

Water released during composting seeps down through the material to be composted and the container 5 can leave via the perforated bottom wall. The seeping water is collected by the intermediate bottom 4 and guided to the pump 23 by means of the water discharge and the discharge pipe 22 present therein. Depending on the composting conditions, the collected and collected water, if necessary supplemented with fresh water from the line 24, can be fed back into the material to be composted by means of the pump 23 and the line 25, and are regularly injected therein by the spray nozzles 26. The collected water can of course also be removed from the composting device by means of a drain (not shown) by the pump 23.

Fig. 3 shows a modified embodiment detail of the composting machine shown in Figs. 1 and 2. A cross-section through part of the wall of the upper compartment is shown. The wall of the vessel is not flat in this case, but is formed by a corrugated profile 31. The wall of the container 5 abuts against the inwardly directed wave tops of the profile 31, which makes the construction simple and at the same time robust. The air is supplied to the material to be composted via the corrugated protuberances of the profile 31 relative to the container wall. Fig. 3 further shows two possible embodiments for arranging a discharge channel. Such a discharge channel can consist of a tube 32 or a closing plate 33, the latter of which can be omitted if the wall is not perforated at the location of a discharge channel.

It goes without saying that many modifications and variants are possible within the scope of the invention. Zokan the vessel and the container have any cross section other than square. It is also possible, instead of a centrally arranged tube, to provide a number of such tubes, which are arranged distributed within the container depending on the desired aeration pattern. In case the air does not need to be filtered and does not need to be recirculated, the cover can be designed as a discharge grid. If a number of composting devices are used, a central fan may for instance be provided, which provides the forced air supply to all devices, whereby the exhaust air can also be centrally filtered. The filter element does not always have to be placed in a pull-out drawer. A bin behind a door is also conceivable, while the filter element can also extend vertically, for example placed between two vertical perforated walls. Although the supply of air has always been discussed, the fan can also be arranged in such a way that it draws in air from the container. Furthermore, control equipment can be provided to always keep the composition conditions optimal with regard to air supply, temperature and humidity.

Claims (10)

Composting device with means for a forced air supply provided with a fan and an air supply channel with a perforated wall part, characterized in that the device is provided with - a closable, tubular vessel with a closed circumferential wall, a lid and a bottom - a tubular container placed in the vessel with a peripheral wall perforated at least part of its height and a perforated bottom, and - a tube arranged centrally within the container with a wall perforated at least about part of its height, a closed and an open end, wherein between the bottom of the vessel and the bottom of the containers there is at least one air supply channel which is in open communication with the open end of the tube and with at least one air supply channel between the circumferential wall of the vessel and the circumferential wall of the container, which channel system communicates with the pressure side of the fan, while near the lid of the vessel an exhaust air r applied from the holder. Composting device according to claim 1, characterized in that the peripheral wall of the tubular container, viewed from the lid of the vessel, is not perforated for about a quarter of its height, apart from that for the connection to the air outlet. 3. Composting device as claimed in claim 1 or 2, characterized in that a control valve is located in the air discharge, which connects the discharge pipe to the environment or to the suction side of the fan or to both the environment and the suction side of the fan . 4. Composting device according to claim 3, characterized in that a filter is included in the air discharge for the control valve, which is provided with an extendable drawer with a partly perforated bottom, which must be passed through the filter by air flowing through it. the drawer can accommodate one layer of composted material. 5. Composting device according to any one of the preceding claims, characterized in that the bottom of the vessel is designed as a receptacle for water seeping from the container and is provided with a water discharge, which is connected to a pump, on which connects a water pipe, part of which extends centrally through the pipe, which part is provided with spray nozzles which extend into the container surrounding the pipe. 6. Composting device according to claim 5, characterized in that an additional, external water supply connects to the pump. 7. Composting device as claimed in any of the foregoing claims, characterized in that, in addition to vessel with container and tube further, device elements such as the fan, the filter, the pump, are housed in an enclosure with a circumferential wall, which corresponds substantially to that of the vessel and connects to the bottom of the vessel. 8. Composting device according to any one of the preceding claims, characterized in that the peripheral wall of the vessel is provided on its outside with gripping means for lifting and / or tilting the vessel. 9. Composting device according to any one of the preceding claims, characterized in that the circumferential wall of the vessel has a cross-sectional cross-sectional configuration, the peripheral wall of the container making contact with the inwardly directed wave crests to form a large number of channels. 10. Composting device as claimed in claim 9, characterized in that of at least one of the channels the wall formed by the container forms a closed surface, which has a breach near the lid of the vessel, which channel thus forms connects to the interior of the container.