DE4309902A1 - Machine for spreading liquid manure - comprises casing which in one quadrant has increasingly reduced radius causing flexible radial paddles to deform against it - Google Patents

Abstract

The housing (6) is cylindrical through three quarters of its girth, the radius of the fourth quadrant is progressively diminished where the housing is annexed to a separator chamber (27). A rotor (7) has several flexible radial paddles (20) projecting from the hub (18), the free end of each paddle is just in contact with the inner surface of the casing. Around the lower half of the casing are a number of equidistant hose connections (5') forming a distributor. As the rotor rotates the flaps become deformed when they reach the shorter radius curve of the casing, allowing manure to pass through an opening (26) from the separator (27) into the casing, and subsequently impelled through the outlets (5'). ADVANTAGE - Equal quantities of manure are passed into the various outlets.

Description

The invention relates to a liquid distributor according to the preamble of claim 1, and with a slurry tanker such a distributor.

In recent times, the spreading of manure on the fields been severely restricted by law. The reason for this is in the over-fertilization of the soil and the danger to the groundwater. Nobody will deny that with the offered intensive use of the soil this by a correspondingly careful Fertilization those nutrients that need to be returned one withdraws from it.

Therefore, suggestions have already been made in place of the previous one spread mere spraying of manure, not least also to a loss of the necessary nitrogen, as well as to the disadvantages outlined above, targeted fertilization achieve less losses by making the liquid out a slurry tanker via a distributor to a plurality of ver is brought sub-lines, the mouths of which are relatively limited Cross section directly to the points to be fertilized or Strips are brought up.

So here’s the problem, one through a feed line, from the slurry tank, brought liquid to several distributors deliver lines. Of course, this should be as even as possible take place, because otherwise the undesirable location would stop overfertilization. This problem the uniform distribution of the liquid arises from the the reasons given above, of course, especially for manure,  but of course an even distribution is also with others Liquids wanted.

There is a distributor on the market with the characteristics of the Oberbe handle of claim 1, wherein the rotor at least one, in but generally even several openings for each has a distribution line so that when it rotates the One after the other, so many distribution lines supplied with liquid manure, than it has passage openings and these with the rotation align the mouths of the distribution lines. Now that is undoubtedly a system that is in theory and on flat Plots may prove good. In practice, however, show up a number of disadvantages that ensure proper functioning in the severely impair the desired senses.

On the one hand, uneven terrain, slopes affect u. Like. The flow rate very significantly, so that each lower part of the distributor a larger amount Allocates liquid as a higher part. This effect is on the other hand reinforced by the fact that manure is a fairly unhomogeneous product in which numerous feast substances such as straw, but also stones, are carried along. Ver If such a solid stuffs the line cross-section, it will the unevenness of the slurry distribution is even more pronounced.

The invention has for its object a liquid Distributor of the type mentioned in such a way that it has a even distribution of the liquid on the individual Ver secures partial lines. According to the invention, this object is achieved by the characterizing features of claim 1 solved.

Because the rotor is provided with wings, a kind Forced support achieved, which is no longer - as before - merely works passively on the principle of communicating vessels. This results in decreasing within the sub-area Radius is a compression of the volume and therefore a pressure  increase, which leads to a "cleaning" of the distribution lines. This cleaning effect is further enhanced by the wiping effect of the wings resiliently reinforced on the inner wall of the housing, since it is precisely those edges where dirt and It is easiest to fix foreign bodies, to be wiped free. A further improvement of this effect can by the characteristics of Claim 9 and / or by the feature d) of claim 3 can be achieved, because in this way a shear effect to the Cutting straws and the like Like. Can be achieved.

A particularly favorable training results from the features of claim 5, which is also independent of the training the housing, d. H. regardless of whether the characteristic note male of claim 1 are fulfilled or not, because of which resulting separation effect for in the liquid, and Solids contained in the manure are particularly beneficial is.

The distribution of the liquid should of course be as equal as possible done moderately. Therefore, the features of claim 7 particularly advantageous, thereby a one-sided load on the Avoiding wings as they would arise if the wing Confluence would be approximately nozzle-shaped and so only in each case a part of the wing acted. It also follows smooth, relatively slow rotation of the rotor.

Training is also based on the uniform distribution Claim 8 useful, especially if the series of distribution lines extends obliquely to the generators, since on these Do not place all line mouths in a row at the same time be released. A V-shaped formation of this series brings the effect that about two distribution lines at a time be released on both sides of the axial center.

Further details of the invention will become apparent from the following description of schematically with reference to the drawing  illustrated embodiments. Show it:

Fig. 1 a vehicle equipped with a liquid distributor according to the invention Güllefaß,

Fig. 2 is an axial section through the distributor according to the invention, along the line II-II of Fig. 3, and

Fig. 3 shows a corresponding axial section through the housing without a rotor according to the line III-III of FIG. 2.

Referring to FIG. 1, a vehicle is provided with a Güllefaß 1 is supplied from the slurry by means of a pump 2 through a supply line 3 to a manifold 4. A pump pressure will then prevail in this distributor 4 , which is generally close to 0.3 bar, but in some cases can even reach up to 1 bar. As will be explained later, the rotor of the distributor 4 is driven indirectly, so that it can itself be designed as a drive.

As such, the pump could be located anywhere, and it will become apparent from the later description that in principle it would also be possible to design the distributor 4 itself as a pump, so that a separate pump can be dispensed with, but this is shown Arrangement of the pump 2 in the supply line 3 is preferred.

Via the distributor 4 , a number of distribution lines 5 are supplied, which dispense the liquid directly at the desired points in metered form, so that contamination of the groundwater or local over-fertilization is prevented.

FIG. 1 shows only an example of how the liquid distributor according to the invention can be attached. Another preferred application is the arrangement of a stationary line phase, the line leading to a tractor, similar to that known from irrigation systems. In this way, the weight of the entire slurry supply does not have to be transported via a drum, so that the soil compaction is reduced. The manure is then supplied from a stationary manure tank via the pipeline carried along, the distributor being carried by the vehicle.

Fig. 2 illustrates the structure of the distributor 4 according to the invention. The liquid is brought in via the feed line 3 tangentially opening into a housing 6 , expediently under pump pressure. In Figs. 1 and 2, this supply line is approximately horizontal quite shown, but it may be preferred to 90 ° to rotate the arrangement such that the supply line 3 flows vertically upwards into the housing 6, the axis or shaft 8 then approximately lies horizontally. From this it can be seen that the invention is not restricted to a specific position of the distributor, although the latter is preferred for the reasons explained later.

At least over a part of the housing circumference are outlet nozzle 5 'distributed, which form the beginning of the distribution lines 5 (see. Fig. 1). Each of the outlet nozzle 5 shown in Fig. 1 'forms the beginning of an extending in the axial direction of the housing row of distribution lines, Fig. 3 illustrates that this nozzle 5 ' a, dash-dotted line, not necessarily along a generator E. must run, but are preferably offset such that at least a part of them form a helix over the circumference of the housing 6 . It has proven to be advantageous if this helical line is broken in the manner shown in FIG. 3 and runs back and forth in the form of an arrow. It is preferred if the tip of the arrow-shaped line thus formed points in the direction of rotation of a rotor 7 ( FIG. 2) accommodated in the interior of the housing, but the invention is not restricted to this.

The direction of rotation of this rotor 7 results from the tangential opening of the feed line 3 in the housing 6 . The rotor 7 rotates about an axis 8 fastened in the housing 6 , which can best be seen from FIG. 3. This axis 8 is attached at its (with reference to FIG. 3) lower (but preferably lateral) end to an end wall 9 of the housing 6 shown at the bottom in FIG. 3 in any manner per se, here by a bolt 10 . However, welding or gluing would also be conceivable. At the upper end, the axis 8 has an internal thread 11 into which a screw bolt can be screwed, which can be screwed through a central opening 12 of a cover 14 that can be folded onto the housing 6 about a joint 13 . This joint 13 comprises two mutually opposite bearings 15 , in which a drive shaft 16 is rotatable. The bearings 15 are held by arms 17 which extend substantially horizontally and from which the bearings 15 protrude, as can be seen.

With this construction, good accessibility to the inside of the housing 6 , for example for cleaning purposes, is ensured, on the one hand, and easy detachability of the cover 14 is ensured, since only a single screw is to be screwed out of the internal thread 11 . On the other hand, it is avoided in this way that the axis 8 must be designed as a flying bearing with only one-sided forces acting on it when driving the rotor 7 , and a stable fastening of this axis 8 on both sides is ensured.

The lid 14 can be sealed in any known manner. In Fig. 3 it is shown with an axially somewhat narrower sealing edge 31 into which a sealing ring can be inserted. On the other hand, the thin outer surface of a reinforced central part 32 surrounded by the housing walls in the closed position could also have a groove for inserting an O-ring.

The rotor 7 has a hub 18 on which the relatively stiff, preferably extending over at least half of the smallest radius, holder 19 protrude at a predetermined angular distance alpha. This angular distance alpha can correspond to the angular distance beta of the openings 5 '' ( Fig. 3), in which the nozzle 5 'of the distribution lines are attached. The attachment of this nozzle 5 'is preferably carried out by screws, for which purpose the nozzle 5 ' can have an external thread in the manner shown, which is screwed into an internal thread of the openings 5 ''. Alternatively, the connecting piece 5 'can be welded, soldered or glued in, but they are kept easily exchangeable before given by the screw connection. If the openings 5 '' are arranged obliquely to the generatrices E in the manner shown in Fig. 3, the angle alpha can suitably correspond to the distance between two generators E, at which the center points of a pair of openings 5 '' each. However, this is by no means a requirement, and other dimensions of the angles alpha and beta are also conceivable.

The holder 19 extends approximately radially according to FIG. 2, but it may seem advantageous to form it obliquely, as seen in the direction of rotation of the rotor 7 , so that it is somewhat tangentially connected to the shaft 8 , on the one hand because of the thrust the liquid is better counteracted, on the other hand because in the case of tolerances and the resulting slight forward inclination of the holder 19, otherwise a rattling of the wing tips over the outer housing wall may result, which can lead to unpleasant chatter marks and to noise formation and increased wear.

If the openings 5 '' form the visible from Fig. 3, V-shaped row, it is advantageous if the holes of the neighboring row are slightly offset in the axial direction, so that the outer ends of the wings 20 are not always the same when moving past Place to be worn out.

As can be seen from Fig. 2, the housing 6 has a starting radius from the mouth of the feed line 3 and up to it returning decreasing radius. In order to transmit the full drive power of the liquid driven by the pump 2 ( FIG. 1) to the rotor 7 , it is advantageous if the input region of the housing 6 is connected to the feed line 3 , approximately up to a line L, with a uniform radius has, which is followed by a portion extending approximately to the intersection line S with a continuously decreasing radius (spiral). Between the lines S and L, before the confluence of the feed line 3 , there is an area with the smallest radius. Thus, the lines S and L in the example shown include an angle of about 270 °, but other, for. B. smaller angle can be selected.

If the rotor 7 is now to exert its distributing action, it must therefore have vanes which can adapt to these radii. For this purpose, the holder 19 may, for example, as, for. B. hollow, Füh approximately body for the inside under the pressure of a loading device, such as compression springs, loaded to the outside, piston-like sealing bodies, but it is understood that the arrangement shown using wings 20 made of rubber material is simpler and cheaper .

As can be seen, these rubber blades bend more and more in the area with the smallest and smallest radius. This not only results in the adaptation of the wings 20 to the housing 6, which is becoming narrower, but also first of all provides an elastic seal for the compartments formed between the wings 20 . However, since the space remaining between them also becomes narrower when the elastic wings 20 are deflected, the pressure on the liquid in the individual compartments also initially increases. This increase in pressure is the compensation for the fact that the wing 20 in the course of the rotation on the distribution lines 5 and their connecting piece 5 'and each release part of the liquid, which in turn reduces the pressure.

Seen over one revolution, therefore, the pressure in the individual NEN compartments will remain essentially constant, so that all United lines 5 are supplied evenly.

In the embodiment shown, in which the line L and the beginning of the reduction in the housing radius are provided relatively early, there is an increase in pressure before reaching the first, in Fig. 2 located on the right, distribution pipe socket 5 '. In some cases, this may even be desirable. In other cases, this pressure increase can be used to further compensate for the pressure drop caused by the release of liquid. This may for instance be such that, radially more or less extending groove 'is guided in the circumferential direction, through which before the first Verteilstutzen 5' in the embodiment shown in Fig. 2 housing end wall 9 from about the line L a pressurized Liquid can flow into compartments of the rotor 7 located later (in the lower region of FIG. 2). Instead of such a groove in the housing end wall, a groove can also be provided in the blades of the rotor, into which a sector-shaped projection of the housing end wall engages.

It can be seen that the holders 19 give the wings 20 a forward stiffening (seen in the direction of rotation according to the arrow A in FIG. 2). This is advantageous because the wings - in order to fulfill their conveying function - have to be relatively stiff per se and, above all, should not bend forwards under the pressure of the liquid flowing in via the feed line 3 . This risk would be particularly present if the mouth of the line 3 had a relatively small cross-section, so that the liquid would come out at high speed. Therefore, in order to reduce the speed of the liquid or to distribute its pressure over the largest possible area of the wing, it is advantageous if a diffuser device is provided in the mouth area of the feed line 3 . This can be formed by distribution plates, distribution screens or the like, but is expediently formed in the manner shown in FIG. 3 as a widening 3 'which expediently extends in the mouth region essentially over the entire axial length of the housing 6 .

However, it should be mentioned here that the invention is not restricted to a specific arrangement of the feed line 3 ; for example, there may be applications in which a more or less parallel to the shaft 8 junction of the feed line 3 appears advantageous.

In addition, one may provide that the rubber wing 20 (it can also be a plastic or an elastic metal, such as spring steel) be relatively stiff with a rigidity or elasticity of at least 50 shore, in particular at least 60 shore, z. B. 65 shore, are formed. It may be expedient to limit the deflection in the direction of rotation of the rotor 7 by an additional stop device 21 which, for. B. afford shaped, stop device 21 in the Fig. 2 shown on the right Darge way overhangs the holder 19 and therefore at a radially outer point (or along a line) attacks. The length of the holder 19 suitably corresponds to at least half the length of the elastic wing 20 , possibly up to a third. A length corresponding to the smallest housing radius can be advantageous, because then the holders also serve as stiffening members.

A further stiffening can - at least for other reasons - be favorable at the end of the elastic wing 20 . Such a stiffening may be designed as is also shown on the right in FIG. 2. A stiffening strip 22 interacts with a scraper strip 23 , both of which are connected to one another and to the respective wing 20 by means of bolts or rivets 24 (only indicated schematically). The scraper bar 23 may be hardened. Accordingly, the housing end of the nozzle 5 'can be hardened to cooperate with the scraper 23 like a knife. As a result, fibrous solids, such as straw in particular, contained in the liquid manure are separated before entering the distribution lines 5 in order not to clog the lines. This measure also improves the uniform distribution of the liquid, since the distribution lines 5 were exposed to the risk of contamination to a very high degree in the prior art. The design of these scraper strips 23 can also be subjected to various modifications; because if the wings 20 bend in the areas of the smallest radius, as shown, in the embodiment of the scraper 23 shown another edge area will always be in contact with the housing wall, which can lead to rounding of the scraper edge. Therefore, the scraper 23 can also be formed as a pivotable about a pivot axis 30 , triangular scraping angle 23 ', which always remain in the same orientation and at the same angle to the housing wall (self-aligning).

If you imagine that the edges of the wing 20 or the scraper 23 successively release the openings shown in Fig. 3 5 '' release, the angles alpha and beta may be such that initially only those at a certain Erzeu E openings are supplied with liquid from a department, while the other openings against this compartment are covered by the wings 20 . Therefore, two distribution lines 5 simultaneously get the same amount of liquid with certainty, it being in your hand to arrange this pair of lines so that they lead, for example, to opposite sides of the width of the slurry tanker, which contributes to the homogenization of the slurry distribution.

In order to improve the cutting effect, it may even be advantageous to have the housing 6 facing ends of the connecting piece 5 'protrude slightly into this, as shown in Fig. , Right. The shape of these projections can be any, z. B. be tooth-shaped, but then there may be a risk that protective substances will settle there. Therefore, the cambered shape of the projection 105 shown is cheaper. It is not absolutely necessary for the scrapers 23 to have corresponding recesses (in this case negative crowning) in the region of the projections 105 , since the wings can deflect elastically. However, it can be advantageous for certain liquids. In any case, it is clear that the arrangement of relatively short nozzle 5 'as the beginning of the distribution lines 5 has the advantage that they can easily get the hardness required for the purpose described.

Especially in manure, but also in other liquids, there are often undesirable solids, such as stones 25 . Because the wings 20 adapt elastically to the shape of the housing, such solids 25 are taken along. The spiral shape of the housing 6 does the rest so that the wings 20 are deflected more and more and, as shown in Fig. 2 left, such solid materials 25 hold. Therefore, if an opening 26 in the housing wall 6 , preferably in the jacket wall, occurs, stones 25 and other solids, gelan gene in a separating space 27 and can be removed from the liquid, so that the risk is avoided that it the next turn (after loosening the wings 20 holding them in the confluence of the supply line 3 ) freely get into one of the distribution lines 5 and block them. It is understood that the spiral shape of the housing 6 supports this separation effect, but that the arrangement of the opening 26 and the subsequent separating space 27 are of inventive importance in themselves.

In order that the stones 25 can be separated more easily, it is preferred if the separation chamber 27 is directed downwards, and this is the reason for the above-mentioned preferred horizontal arrangement of the shaft 8 .

The cleaning of solids is additionally improved if the opening extends over the entire axial width of the vanes 20 , since in this way not only is a relatively large opening 26 created, but also the elastic vanes 20 can be aligned in the extended position, the solid materials 25 are thrown elastically into the deposition chamber 27 . 26 to prevent damage to the wings while leaving the opening by excess friction edge by the limitation of the opening 26 is applied, it is advantageous if the downstream boundary edge of the opening is provided with a run-on slope 28 26th The chamber 27 is preferably partially covered by a cover wall 29 to prevent the new union entry of the solids located in the chamber 27 in the interior 6 'of the housing 6 as possible. This cover wall 29 can be slightly extended in the direction of rotation and protrude beyond the actual, from Fig. 2 confluence of the supply line 3 . In this case, it may be desirable to incline the cover wall 29 , which is elongated in this way, obliquely to the axis of the feed line 3 against the outer housing wall, so that the elastic wings do not relax as abruptly as they do in the gradation of the lateral surface shown in FIG. 2 of the housing 6 will do.

Numerous variants are possible within the scope of the invention; For example, the transition from the area with the smallest radius to the junction area with the greatest radius in Fig. 2 is shown in Fig. 2 with the course of stepped. A gradual transition would also be conceivable, but part of the rotational path of the rotor 7 or the circumference of the housing would have to be sacrificed for this, which will not be desirable in most cases. Furthermore, it would be conceivable, instead of a continuous axis 8 on each of the end walls of the housing 6 , ie both on the end wall 9 shown in FIG. 3 below (but preferably rotated through 90 ° into the vertical), as well as on the cover 14 , to attach a bearing stub each, but it goes without saying that the solution shown contributes particularly to the stiffening of the housing 6 under the pressure of the pump 2 . For some applications, it could also be desirable to provide several of them instead of a single supply line 3 .

Furthermore, it is understood from the above description why the sector can have a uniform radius from the line S to the junction 3 , since since the liquid has already been released from the individual compartments between the wings 20 , no further pressure increase is required. On the other hand, the line S, from which the radius no longer decreases, could be located such that the sector still includes the last (left in Fig. 2) distribution line with the mouthpiece 5 '. For structural and manufacturing reasons, however, a radius that decreases over the entire housing 6 may also be preferred in some cases.

Finally, the rotor 7 could also be its own drive to also take on the role of the pump 2 . In this case, a design in the manner of rotary piston pumps with sealing pistons pressed against the inner surfaces of the housing will be favorable.

Claims (10)

1. Liquid distributor with a housing ( 6 ) having at least one supply line ( 3 ) and a rotor ( 7 ) mounted therein, via which the supplied liquid can be supplied to a plurality of distribution lines ( 5 , 5 ') connected to the housing ( 6 ), characterized in that that the housing ( 6 ) at least over a partial area (LS) of its circumference has - as viewed in the direction of rotation of the rotor ( 7 ) - increasingly decreasing radius, and that the rotor ( 7 ) with radially extending, rests elastically against the housing wall Wings ( 20 ) is provided. 2. Distributor according to claim 1, characterized in that the housing ( 6 ), following the confluence of the feed line ( 3 ), has a circumferentially extending section ( 3 -L or S- 3 ), in which the radius is at least approximately uniform, and that preferably at least one of the following features is provided:

• a) the section ( 3 -L) with a uniform radius extends in the direction of rotation of the rotor ( 7 );
• b) the section (S- 3 ) with a uniform radius extends in the opposite direction to the direction of rotation of the rotor ( 7 ).

3. Distributor according to claim 1 or 2, characterized in that the wings ( 20 ) have at least one of the following features:

• a) at least a part of the elastic wings ( 20 ) are stiffened, in particular starting from the radial inside, over part of their length;
• b) it is provided in the direction of movement of the rotor ( 7 ) front stiffening limiting device ( 21 ) for the mobility of the wings ( 20 );
• c) the elastic part of the wings ( 20 ) is fastened on the radial inside, preferably over at least half of their length, to stiff holders ( 19 ) running along them, which preferably run slightly tangentially from the shaft, trailing outwards ;
• d) at their ( 20 ) radially outer ends a stiffening in the form of on the inner surface of the housing ( 6 ) resiliently scrapers ( 23 , 23 '), in particular made of hardened material, is provided;
• e) they ( 20 ) consist at least partly of rubber material, preferably a rigidity or elasticity of at least 50 shore, in particular at least 60 shore.

4. Distributor according to one of the preceding claims, characterized in that the rotor ( 7 ), for the purpose of indirect drive bes via a pump connected to a line, is itself formed without a drive. 5. Distributor according to one of the preceding claims, characterized in that the housing space ( 6 ') has an extension ( 27 ), and that this extension ( 27 ) preferably has at least one of the following features:

• a) it ( 27 ) extends radially outwards;
• b) it is partially covered against the housing space ( 6 ') leaving an inlet opening ( 26 ) free for the entry of solid bodies ( 25 ) by a cover wall ( 29 );
• c) it ( 27 ) is arranged in the region of the section with a reduced radius, expediently in the region of the smallest radius (S- 3 );
• d) its opening ( 26 ) extends over the entire axial width of the vanes ( 20 ), the downstream boundary edge of the opening ( 26 ) preferably being provided with a run-on slope ( 28 );
• e) it extends downward from the distributor housing ( 6 ), the shaft ( 8 ) of the rotor ( 7 ) extending at least approximately horizontally.

6. Distributor according to one of the preceding claims, characterized in that the rotor ( 7 ) is mounted on an axis extending preferably through the housing ( 6 ), on one of which, one of the end walls ( 14 ) of the housing ( 6 ) facing end, a fastening device ( 11 ) is attached for connection to this end wall ( 14 ), expediently an internal thread ( 11 ) provided in the axis ( 8 ) for screwing in a fastening screw penetrating the end wall ( 14 ) centrally, and preferably this end wall ( 14 ) is designed as a cover ( 14 ) which can be pivoted about a hinge, joint or the like ( 13 ). 7. Distributor according to one of the preceding claims, characterized in that at the location of their junction with the housing (6) a diffuser (3 '), in particular in the form of, expediently over substantially the entire axial length of the housing (6) extending widening ( 3 '). 8. Distributor according to one of the preceding claims, characterized in that the distribution lines ( 5 , 5 'or 5 '') form at least one row extending axially over the housing shell, and that this row preferably at least partially obliquely to the generators (E ) of the housing ( 6 ), in particular approximately V-shaped ( Fig. 3), and that preferably the distribution lines ( 5 , 5 'and 5 '') of adjacent rows of mouths are offset in the axial direction. 9. Distributor according to one of the preceding claims, characterized in that at least some of the distribution lines ( 5 , 5 ') at the connection point on the casing wall of the housing ( 6 ) an at least on the inside hardened and / or in the interior of the housing easily protruding, especially bom biert, mouthpiece ( 5 '), and that, if necessary, the wings ( 20 ) at their radially outer ends have a protruding profile ( 105 ) of the mouthpieces ( 5 ') adapted recess. 10. Distributor according to one of the preceding claims, characterized characterized that he along with the end of a flexible Line is attached to one vehicle, whereas the other End of this line stationary and with a slurry tank, preferably also with a stationary pump, connected is.