DE102017121420B4 - Distribution system - Google Patents

Abstract

Distribution system for the application of at least predominantly liquid organic substances, comprising a receptacle (2) for fixing the distribution system (1) to a support system and a boom (4) running transversely to the direction of travel (FR), the boom (4) having a lengthwise of the boom ( 4) has a running distribution pipe (5) on which a plurality of distributed outlets (6) are provided for the discharge of the organic substances close to the ground, characterized in that a clearing element (7) with a large number of distributed clearing elements inside the distribution pipe (5) (7.1) is provided, the clearing element (7) being designed like a rake with a rod-like connecting element (7.2) and clearing elements (7.1) protruding downward, and the clearing element (7) being translationally movable in the distribution pipe (5).

Description

The invention relates to a distribution system for at least predominantly liquid organic substances, for example liquid manure or fermentation residues from biogas plants, and a method for distributing such substances.

Distribution systems for the application of organic substances close to the ground are well known. In this case, the organic substances are fed from a tank to a distribution device, via which a supplied stream of organic substances is divided into a multitude of partial flows and passed on to a multitude of hoses. The partial flows of organic substances are fanned out along a desired spreading width of the distribution system via these hoses and discharged close to the ground. Rotating distribution systems are known as distribution devices, for example, in which the organic substances are intermittently forwarded to the hoses via a rotating distribution head.

Furthermore, screw distribution systems are known which extend over a very small part-width of the boom and in which the organic substances to be applied are distributed in the longitudinal direction via a rotating screw and are delivered to outlets at which the hose ends are arranged.

From the pamphlet DE 10 2004 053 085 B4 a slurry spreading vehicle with a slurry distributor is known. This slurry distributor has a lower housing part 36 and a cutting insert 37 in which elongated holes are provided. The cutting plate 37 can be moved in the longitudinal direction in order to be able to adjust the opening cross-section of the outlet openings.

From the pamphlets WO 95/05067 A1 and EP 0 772 965 A1 slurry or sewage sludge distributors have become known which have a rotating clearing element.

The disadvantage of the known systems is that, due to the compact size of the distribution units, they require comparatively long hoses, which on the one hand often grow so that the organic substances can no longer be released through the respective hose, and on the other hand the hoses have to be laid in a complex manner to prevent the hoses from chafing against each other.

In addition, the distribution systems known from the prior art require a high drive power in order to achieve the distribution of the organic substances to be applied in the respective hoses, which results in high fuel consumption or energy consumption of the towing vehicle.

Based on this, it is the object of the invention to specify a distribution system for at least predominantly liquid organic substances that ensures resource-saving and low-maintenance application of the organic substances.

The object is achieved by the features of independent claim 1. Preferred embodiments are the subject of the dependent claims. A method for the application of at least predominantly liquid organic substances is the subject of the independent patent claim 16.

According to a first aspect, the invention relates to a distribution system for applying at least predominantly liquid organic substances. The distribution system comprises a receptacle for fixing the distribution system on a support system and a boom running transversely to the direction of travel. The boom has a distribution pipe running along the boom, on which a plurality of distributed outlets are provided for the discharge of the organic substances close to the ground. A clearing element with a multiplicity of clearing elements arranged in a distributed manner is provided in the interior of the distribution pipe. The clearing element can for example be designed like a rake. This clearing element can be moved in translation by suitable drive means in the distribution pipe.

The main advantage of the distribution system according to the invention is that the clearing element can effectively prevent the outlets of the distribution pipe from being blocked when the drive power is low, which entails low maintenance and cleaning costs. In addition, due to the elongated design of the clearing element, the distribution pipe can be made long relative to the boom width, so that the lengths of the hoses used for delivery close to the ground can be significantly reduced.

According to one embodiment, the clearing elements are designed as cutting elements. These have a cutting edge in a lower area, in which they rest against an inner wall area of the distribution pipe, in order to produce a cutting effect with respect to the distribution pipe or the outlets provided there during the translational movement. In this way, for example, fibrous materials, for example straw or grass residues, can be cut through in order to effectively prevent the outlets from being blocked.

According to one embodiment, the distribution pipe is in a lower area on which the Outlets are provided, designed with a tapered cross-section. This cross-sectional tapering can be achieved, for example, by an inclined taper or a curved design of wall areas of the distribution pipe. In particular, the distribution pipe can be designed triangular or substantially triangular in the lower area and in cross section. This ensures that the liquid organic substances reach the outlets due to gravity and that deposits in the lower area of the distribution pipe can be effectively avoided by the clearing element.

According to one embodiment, the clearing elements are adapted to the cross-sectional shape of the distribution pipe at least in a lower area. It is thereby achieved that the edges of the clearing elements, which are preferably sharpened or form cutting edges, rest on the lower inner wall area of the distribution pipe on which the outlets are provided. An improved clearing effect of the clearing element can thereby be achieved.

According to one embodiment, the clearing element is designed to be movable back and forth in the distribution pipe. In other words, the clearing element is alternately moved first in a first spatial direction and, after reaching a reversal point, in a spatial direction opposite to the first spatial direction. As a result, the clearing elements are moved relative to the distribution pipe or the outlets provided therein in order to avoid clogging of the distribution pipe or the outlets.

According to one exemplary embodiment, the clearing element is driven by first electrical, pneumatic or hydraulic drive means. In particular, a hydraulic cylinder is drive-coupled to the clearing element in order to move it translationally in the distribution pipe.

According to one exemplary embodiment, the clearing element can be moved in a clearing cycle in a second spatial direction running transversely, in particular perpendicular to the longitudinal direction of the distribution pipe. This makes it possible for solids, for example stones, etc., which do not fit through the outlets, to be conveyed to a discharge opening.

According to one embodiment, the clearing elements of the clearing element can be lifted off a lower inner wall area of the distribution pipe by the movement along the second spatial direction and can be lowered with respect to this inner wall area of the distribution pipe. In this way, the clearing elements can be raised beyond the solids to be removed and, after a further displacement movement in the longitudinal direction of the distribution pipe, can be lowered behind it in order to remove the solids gradually, i.e. from an intermediate space formed between two successive clearing elements to the next adjacent intermediate space.

According to one embodiment, a control device is provided which controls the clearing element in such a way that the clearing element performs a clearing cycle after several translational movements along the longitudinal direction of the distribution pipe, in which the clearing elements of the clearing device are lifted from the lower inner wall area of the distribution pipe, at least in the lifted state moved a partial length along the longitudinal direction of the distribution pipe (specifically in the direction of the dispensing opening) and then lowered again in the direction of the inner wall area of the distribution pipe. It is thereby achieved that solids that are not to be discharged via the outlets are increasingly conveyed in the direction of the discharge opening in order to be discharged at this discharge opening after one or more clearing cycles have been carried out.

According to one exemplary embodiment, the movement of the clearing element taking place along the second spatial direction is brought about by second drive means, which are electrical, pneumatic or hydraulic drive means and are in particular formed by a hydraulic cylinder. The first drive means, which bring about the translational movement in the longitudinal direction of the distribution pipe, are preferably connected in an articulated manner to the clearing element in order to enable the clearing element to be raised or lowered by the second drive means. The second drive means are preferably coupled to the clearing element via a sliding connection in order to enable the translatory movement of the clearing element by the first drive means.

According to one embodiment, a discharge opening for solids conveyed away by the clearing cycles is provided in the area of an outer free end of the distribution pipe. Due to the clearing cycles, the solids not to be discharged via the outlets are fed to this discharge opening. A collecting container in which the solids are collected can be provided at the discharge opening. This is preferably designed to be removable in order to be able to remove the solids from it.

According to one embodiment, the distribution pipe extends at least over 50%, in particular 60%, 70%, 80% or 90% of the length of the boom or over 50%, in particular 60%, 70%, 80% or 90% of the length of one of two Extension arms arranged on different sides of the distribution system. As a result, the length of the hoses can be reduced significantly on the one hand, for on the other hand, the hoses run vertically or essentially vertically or have a steep incline, which leads to significantly reduced deposits within the hoses.

According to one exemplary embodiment, the distribution pipe has an upper and a lower distribution pipe channel, which are separated from one another by an intermediate wall. By using two distribution pipe channels that are arranged one above the other, an improved distribution of the organic substances in the longitudinal direction of the distribution pipe can be achieved.

According to one embodiment, locally distributed passages are provided in the partition, via which the organic substances are introduced from the upper distribution pipe channel into the lower distribution pipe channel. The diameter of the passages can be selected and arranged at a distance from one another in such a way that the upper distribution pipe channel is completely or essentially completely filled with the organic substances per unit of time due to the amount of organic substances supplied at the inlet, and thus one along the longitudinal direction of the distribution pipe The organic substances are fed very evenly into the lower distribution pipe.

According to one embodiment, the distribution pipe forms a structurally load-bearing component, in particular the lower part of the load-bearing structure of the boom. In other words, the distribution pipe not only serves to distribute the organic substances but also as a structural frame part of the boom. As a result, a high rigidity of the boom can be achieved even with large boom widths.

According to a further aspect, the invention relates to a method for the application of at least predominantly liquid organic substances by means of a distribution system, comprising a boom running transversely to the direction of travel with a distribution pipe running along the boom, on which a plurality of distributed outlets are provided for the near-ground delivery of the organic substances , wherein a clearing element with a plurality of clearing elements arranged in a distributed manner is provided in the interior of the distribution pipe and is moved in a translatory manner in the distribution pipe.

Under "predominantly liquid organic substances" or "liquid or essentially liquid organic substances" in the context of the present invention are understood liquid or viscous substances, which can also be mixed with solids or fibrous substances, for example stones, grass or straw.

“Support system” in the sense of the present invention is understood to mean any supporting equipment that can accommodate a distribution system, in particular towing vehicles, trailers, cultivators, harrows, etc.

The terms “approximately”, “essentially” or “approximately” mean deviations from the exact value in each case by +/- 10%, preferably by +/- 5% and / or deviations in the form of changes that are insignificant for the function .

Developments, advantages and possible applications of the invention also emerge from the following description of exemplary embodiments and from the figures. All of the features described and / or shown in the figures, individually or in any combination, are fundamentally the subject matter of the invention, regardless of their summary in the claims or their reference. The content of the claims is also made part of the description.

• 1 beispielhaft und schematisch ein Verteilsystem bei Sicht in Fahrtrichtung;
• 2 beispielhaft eine Teildarstellung des Verteilsystems mit einem teilweise aufgeschnittenen Verteilrohr;
• 3 beispielhaft eine Schnittdarstellung des in 2 gezeigten Verteilsystems entlang der in 2 gezeigten Schnittlinie A-A; und
• 4 beispielhaft ein Auslegerarm des Verteilsystems mit ausgeklappter, seitlicher Verbreiterungseinrichtung.

The invention is explained in more detail below with reference to the figures using exemplary embodiments. Show it:

• 1 exemplary and schematic of a distribution system when viewed in the direction of travel;
• 2 an example of a partial representation of the distribution system with a partially cut-open distribution pipe;
• 3 an example of a sectional view of the in 2 distribution system shown along the in 2 section line AA shown; and
• 4th an example of a cantilever arm of the distribution system with a folded-out, lateral widening device.

1 shows a rear view (ie looking in the direction of travel FR ) of a distribution system 1 for the near-ground application of liquid or essentially liquid organic substances, for example liquid manure or digestate from a biogas plant. The distribution system 1 includes a recording 2 , by means of which this can be attached to a support system, for example. This support system can, for example, be a towing vehicle 3 with a tank 3.1 to absorb liquid or essentially liquid organic substances. Alternatively, the distribution system 1 by means of the recording 2 can also be attached to a trailer having a tank (for example a slurry tanker trailer), a cultivator, a harrow, in particular a disc harrow, etc.

The distribution system 1 includes a boom 4th , the transverse, especially perpendicular to the Direction of travel FR runs. The boom 4th is symmetrical or essentially symmetrical to a vertical or essentially vertically oriented central axis in the exemplary embodiment shown MA educated. Here the boom points 4th a first cantilever arm 4a and a second cantilever arm 4b on that related to the central axis MA stand out from this on different sides. Preferably the cantilever arms are 4a , 4b designed to be pivotable so that it can be attached to the trailer or the towing vehicle, for example 3 can be swiveled or applied in order to be able to comply with the maximum permitted vehicle width, for example when driving on public paths and roads.

The boom 4th has at least one distribution pipe 5 on that extends along the boom 4th or its extension arms 4a , 4b extends. In the event that the boom 4th is formed in one piece (ie not foldable), the distribution pipe 5 in one piece along the boom 4th extend. In the case of two extension arms 4a , 4b can each have a distribution pipe 5 on the extension arms 4a , 4b be provided.

At least one distribution pipe 5 forms a structural component of the boom 4th or the extension arms 4a , 4b so that's on the boom 4th or the extension arms 4a , 4b acting forces at least partially from the distribution pipe 5 be included. In particular, the distribution pipe forms 5 a lower part of the structural load-bearing parts of the boom or the boom arms 4a , 4b .

The distribution pipe 5 has an inlet in the upper area 5.4 over the manifold 5 the at least predominantly liquid organic substances can be supplied. These added organic substances can then pass the distributor pipe 5 flow through in the longitudinal direction. On the distribution pipe 5 are in the lower area 5.1 Outlets 6 provided through which the organic substances are applied. The outlets 6 are preferably along the manifold 5 provided distributed so that through the distribution pipe 5 the organic substances to be discharged flow through and at the respective outlets 6 distributed locally.

At the outlets 6 are preferably hoses 6.1 provided, via which the organic substances are applied close to the ground. In the embodiment shown, each outlet 6 both a hose 6.1 as well as a crowd 6.2 assigned, over which a furrow is formed before the organic matter is introduced. The multitudes 6.2 can for example on the manifold 5 be attached. It is understood, however, that in other embodiments the use of shares 6.2 can be omitted or replaced by other soil cultivation means.

The length of the distribution pipe 5 is preferably chosen such that this extends over the greater part of the length of the boom 4th or the extension arms 4a , 4b extends. The length of the distribution pipe is preferably 5 50%, 60%, 70%, 80% or 90% or any intermediate value between the stated values of the length of the boom 4th or the extension arms 4a , 4b .

The supply of the liquid or essentially liquid organic substances via the inlet 5.4 can for example be done in such a way that the distributor pipe 5 is completely or substantially completely filled with the organic substances. This enables homogeneous application along the longitudinal direction of the distribution pipe 5 be effected, ie at all outlets 6 the same or essentially the same flow rate is achieved. Preferably at the outlets 6 providing a continuous or substantially continuous stream of the liquid or substantially liquid organics.

As in the 2 and 3 shown is inside the manifold 5 , ie in the pipe interior, a clearing element 7th provided that a variety of clearing elements 7.1 having. The clearing organ 7th has, for example, a rod-like connecting element 7.2 located along the longitudinal axis of the manifold 5 extends. From this connector 7.2 the clearing elements stand downwards 7.1 from. These are provided spatially distributed, for example at regular intervals from one another.

The clearing organ 7th is in the manifold 5 arranged such that the clearing elements 7.1 partially opposite an inner wall area 5.2 of the distribution pipe 5 in the lower area 5.1 same.

The lower area 5.1 of the distribution pipe 5 can for example be designed to taper downwards, for example tapering to a point or also tapering in an arc shape. This ensures that the distribution pipe 5 tapered in cross-section downwards and thus the organic substances funnel-like the outlets 6 are fed. The shape of the clearing elements 7.1 can at least partially match the cross-sectional shape of the distributor pipe 5 be shaped. In the embodiment shown is the lower area 5.1 of the distribution pipe 5 pointed or 3 Triangularly tapered and the clearing elements 7.1 are also at least partially triangular, so that a large-area clearing effect of the clearing element 7th in the manifold 5 can be effected.

The clearing organ 7th is movable in the distribution pipe 5 provided, in translation displaceable along the longitudinal direction of the distribution pipe 5 . In particular, the clearing element 7th can be moved back and forth by a cyclic sliding movement. The stroke of movement of this sliding movement and the number of clearing elements 7.1 are chosen so that at least one clearing element 7.1 in one movement stroke via an outlet 6 is moved to clog the outlet opening of the outlet 6 to prevent.

The translational movement of the clearing organ 7th can be done by any drive means, in particular electrical, hydraulic or pneumatic drive means. In the embodiment shown are for translational movement of the clearing member 7th along the longitudinal axis of the distribution pipe 5 first drive element 8th provided, which are formed by a double-acting hydraulic cylinder. For example, the piston of the hydraulic cylinder is connected to the connecting element 7.2 of the clearing organ 7th coupled.

The clearing elements 7.1 can in particular be cutting elements, ie in the area in which they are opposite the inner wall of the distribution pipe 5 are in contact, they can be equipped with cutting edges so that solids contained in the organic matter, for example grass residues, straw residues, etc., during the translatory movement of the clearing element 7th be cut off.

Preferably the distribution system is 1 trained to do so by means of the clearing element 7th Solids present in the organic matter, for example stones, etc., to the outer free ends of the distributor pipe 5 conveyed away by means of clearing cycles. For this purpose, second drive means 9 be provided by means of which the clearing element 7th in a direction transverse to the longitudinal direction of the distribution pipe 5 can be raised and lowered. This lifting movement allows the clearing elements 7.1 from the lower inside surface of the manifold 5 be lifted off, so that they are at least in the area of the outlets 6 no longer concern yourself with this. The second drive means 9 can be formed by any drive means, in particular electrical, hydraulic or pneumatic drive means. In the embodiment shown, the second drive means 9 formed by at least one hydraulic cylinder, the piston rod of which with the connecting element 7.2 is coupled.

The clearing organ executes a clearing cycle 7th a sliding-stroke movement to remove solids that are not through the outlets 6 can be dispensed in the direction of a dispensing opening 10 to convey away. The push-lift movement is carried out in such a way that the clearing element is first 7th when installing the clearing elements 7.1 against the lower area 5.1 of the distribution pipe 5 outwards towards the dispensing opening 10 (first spatial direction RR1 ) is moved. After this outward movement, the clearing organ becomes 7th by the second drive means 9 raised (in the direction of the second spatial direction RR2 ) so that the broaching elements 7.1 from the lower area 5.1 of the distribution pipe 5 in particular the lower inner surface are lifted off. Then the clearing organ 7th in the lifted state by the first drive means 8th moved back in translation, ie in one direction from the dispensing opening 10 away (against the first spatial direction RR1 ). Last is the clearing organ 7th by the second drive means 9 lowered (against the second spatial direction RR2 ) so that the broaching elements 7.1 again to the system opposite the inner wall area 5.2 of the distribution pipe 5 reach.

Such a clearing cycle can be carried out intermittently after a certain period of time has elapsed or after a definable number of translatory back and forth movements of the clearing element has been carried out 7th along the longitudinal direction of the distribution pipe 5 be performed. By completing these clearing cycles, solids are conveyed away to the outside in the direction of the discharge opening 10 reached so that solids cannot pass through the outlets 6 can not be applied inside the distribution pipe 5 can accumulate. At the dispensing opening 10 A collecting container can be provided in which the solids removed by the clearing cycles are collected.

3 shows a cross-sectional view of the distribution pipe 5 along the section line AA according to 2 . In a preferred embodiment, the distribution pipe 5 several chambers or channels which are arranged one above the other in the vertical direction. In the embodiment shown, the distribution pipe 5 an upper manifold channel 5a and a lower manifold channel 5b on. These manifold channels 5a , 5b preferably run through the distribution pipe 5 over its entire length and are through a partition 5.3 separated from each other in the vertical direction.

About the inlet 5.4 the liquid or essentially liquid organic substances are transferred to the upper manifold channel 5a fed. Due to the between the manifold channels 5a , 5b located partition 5.3 The liquid or essentially liquid organic substances are distributed in the longitudinal direction along the upper valve tube channel 5a . In the partition 5.3 are along the longitudinal direction of the valve tube 5 locally distributed several passages D provided via which the liquid or essentially liquid organic substances in the lower distribution pipe channel 5b reach. This can improve the local distribution of the organic substances to be applied in the distribution pipe 5 can be achieved.

The diameter or the size of the passages D is preferably selected larger than the diameter or the size of the outlets 6 to relocate the culverts D to avoid.

As in 4th shown can be on the boom 4th or the extension arms 4a , 4b one widening device on each side on the outside 11 be provided laterally over the free end of the distributor pipe 5 protrudes to the working width of the distribution system 1 in addition to increase. In this case, the distribution pipe 5 in 4th hoses not shown 6.1 outwards to the widening device 11 be led to also in the area of the widening facility 11 to enable the organic substances to be applied. The broadening facility 11 can opposite the boom 4th or the extension arms 4a , 4b be provided pivotably to the widening device 11 to the boom 4th or the extension arms 4a , 4b to be able to create. The dissemination facilities 11 In addition to increasing the working width, they have the advantage that the distributor pipe does not come into contact with an obstacle from the side 5 is damaged, only the widening device 11 . Preferably, predetermined breaking points or predetermined deformation points can be provided there, which can be exchanged with little effort.

The invention was described above using exemplary embodiments. It goes without saying that numerous changes and modifications are possible without thereby departing from the scope of protection defined by the patent claims.

List of reference symbols

1

Distribution system

2

admission

3

Towing vehicle

3.1

tank

4th

boom

4a

first extension arm

4b

second extension arm

5

Distribution pipe

5a

upper manifold channel

5b

lower manifold channel

5.1

lower area

5.2

Inner wall area

5.3

Partition

5.4

inlet

6

Outlet

6.1

tube

6.2

Crowd

7th

Clearing device

7.1

Clearing element

7.2

Connecting element

8th

first drive means

9

second drive means

10

Dispensing opening

11

Dissemination facility

D.

passage

FR

Direction of travel

MA

Central axis

RR1

first spatial direction

RR2

second spatial direction

Claims (16)

Distribution system for the application of at least predominantly liquid organic substances, comprising a receptacle (2) for fixing the distribution system (1) to a support system and a boom (4) running transversely to the direction of travel (FR), the boom (4) having a lengthwise of the boom ( 4) having a running distribution pipe (5) on which a plurality of distributed outlets (6) are provided for the discharge of the organic substances close to the ground, characterized in that a clearing element (7) with a large number of distributed clearing elements inside the distribution pipe (5) (7.1) is provided, the clearing element (7) being designed like a rake with a rod-like connecting element (7.2) and clearing elements (7.1) protruding downward, and the clearing element (7) being translationally movable in the distribution pipe (5). Distribution system according to Claim 1 , characterized in that the clearing elements (7.1) are designed as cutting elements. Distribution system according to Claim 1 or 2 , characterized in that the distribution pipe (5) has a tapered cross-section in a lower region (5.1) on which the outlets (6) are provided. Distribution system according to one of the preceding claims, characterized in that the clearing elements (7.1) are adapted to the cross-sectional shape of the distribution pipe (5) at least in a lower region. Distribution system according to one of the preceding claims, characterized in that the clearing element (7) is designed to be movable to and fro in the distribution pipe. Distribution system according to one of the preceding claims, characterized in that the clearing element (7) is driven by first electrical, pneumatic or hydraulic drive means (8). Distribution system according to one of the preceding claims, characterized in that the clearing element (7) can be moved in one clearing cycle in a second spatial direction (RR2) running transversely to the longitudinal direction of the distribution pipe (5). Distribution system according to Claim 7 , characterized in that the clearing elements (7.1) of the clearing element (7) can be lifted off a lower inner wall area of the distribution pipe (5) by the movement along the second spatial direction (RR2) and can be lowered relative to this inner wall of the distribution pipe (5). Distribution system according to Claim 7 or 8th , characterized in that a control device is provided which controls the clearing element (7) in such a way that the clearing element (7) executes a clearing cycle after several translational movements or movement cycles along the longitudinal direction of the distribution pipe (5) in which the clearing elements (7.1) of the clearing element are lifted from the lower inner wall area (5.2) of the distribution pipe (5), moved at least a part of the length along the longitudinal direction of the distribution pipe (5) in the raised state and then lowered again in the direction of the inner wall area (5.2) of the distribution pipe (5). Distribution system according to one of the Claims 7 to 9 , characterized in that the movement of the clearing member (7) taking place along the second spatial direction (RR2) is brought about by second drive means (9) which are electrical, pneumatic or hydraulic drive means. Distribution system according to one of the preceding claims, characterized in that in the area of an outer free end of the distribution pipe (5) a discharge opening (10) for solids conveyed away by the clearing cycles is provided. Distribution system according to one of the preceding claims, characterized in that the distribution pipe (5) extends at least over 50%, in particular 60%, 70%, 80% or 90% of the length of the boom (4) or over 50%, in particular 60%, 70%, 80% or 90% of the length of one of two extension arms (4a, 4b) arranged on different sides of the distribution system. Distribution system according to one of the preceding claims, characterized in that the distribution pipe (5) has an upper and a lower distribution pipe channel (5a, 5b) which are separated from one another by an intermediate wall (5.3). Distribution system according to Claim 13 , characterized in that locally distributed passages (D) are provided in the intermediate wall (5.3), through which the organic substances are introduced from the upper distribution pipe channel (5a) into the lower distribution pipe channel (5b). Distribution system according to one of the preceding claims, that the distribution pipe (5) forms a structurally load-bearing component of the boom (4). Method for applying at least predominantly liquid organic substances by means of a distribution system (1), comprising a boom (4) running transversely to the direction of travel (FR) with a distribution pipe (5) running along the boom (4) on which several outlets ( 6) are provided for the discharge of the organic substances close to the ground, characterized in that a clearing element (7) with a plurality of clearing elements (7.1) arranged in a distributed manner is provided in the interior of the distribution pipe (5), which rake-like with a rod-like connecting element (7.2) and downwardly protruding clearing elements (7.1) is formed and is moved translationally in the distribution pipe (5).

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