Abstract:
The invention pertains to a combine ( 10 ) that comprises a crop processing device ( 26 ) having a straw outlet ( 62 ), a beater ( 64 ) assigned to the straw outlet ( 62 ) of the crop processing device ( 26 ) and a straw chopper ( 60 ). An overshot drum conveyor ( 68 ) follows the beater ( 64 ). A single, pivotable flap ( 80 ) is located downstream the drum conveyor ( 68 ) and movable between a chopping position in which it deflects the straw downward into the straw chopper ( 60 ) and a swath laying position in which it lets the straw pass to a slope ( 88 ) behind the straw chopper ( 60 ). The flap ( 80 ) is pivoted at its forward end adjacent and above the drum conveyor ( 68 ) and has a shape matching to the circumference of the drum conveyor ( 68 ).

Description:
DESCRIPTION 
       [0001]    The invention relates to a harvester comprising:
       a chassis, which can be moved across a field in a forward direction,   a crop processing device having an outlet for straw,   a rotatable ejector drum, which is associated with the outlet and discharges the straw rearwards in free flight,   a straw chopper with an inlet,   a further conveyor for conveying straw, which operates in an overshot manner and is arranged downstream of the ejector drum,   and a guiding device, which is arranged downstream of the further conveyor and upstream of the inlet of the straw chopper and which can be moved, by pivoting about an axis, into a chopping position, in which it deflects the straw downwards into the inlet of the straw chopper, and a swath deposit position, in which it allows the straw to pass through to a chute, which is arranged to the rear of the straw chopper and on which it reaches the ground.       
 
       PRIOR ART 
       [0008]    Agricultural harvesters are large machines which harvest, thresh, separate and clean agriculturally cultivated grain-bearing crops. The clean grain obtained is stored in a grain tank arranged on the harvester. The straw removed by threshing is generally either chopped and distributed on the field across the width of the cutting section or is guided around the straw chopper and deposited on the field unchopped in a swath so that it can be picked up later by a baler. The crop residues remaining at the rearward outlet of the cleaning device, such as chaff and small pieces of straw, are distributed on the field by a chaff spreader or passed through the straw chopper and distributed on the field. The last-mentioned solution has the advantage that there is no need for a separate chaff spreader but makes it necessary to guide the straw past the rear of the straw chopper in the swath operating mode. 
         [0009]    U.S. Pat. No. 7,066,810B, which is regarded as defining the type in question, describes a harvester in which a conveyor belt operating in an overshot manner follows downstream of an ejector drum arranged to the rear of the outlet of an axial separating device. Guide plates are fitted at the rear end of the conveyor belt, forming a downward-facing shaft in the chopping mode and guiding the straw into the straw chopper, which is fitted below and to the rear of the rear end of the conveyor belt and which chops the straw and distributes it over the field. The crop residues from the cleaning operation are distributed over the field by means of a chaff spreader. The guide plates can furthermore be moved into a swath position, in which they open a rear passage, through which the straw reaches the field to the rear of the straw chopper. In the swath position, the guide plates close off the straw chopper at the top. Also provided is a position for distributing crop residues, in which the guide plate which forms the front wall of the shaft in the chopping position is pivoted obliquely rearwards, with the result that the material to be chopped passes downwards ahead of the straw chopper and is mixed there with chaff from the chaff spreader and deposited on the ground. Instead of the guide plate being pivoted, it is also possible for the conveyor belt to be pivoted about the axis of rotation of its front or rear return pulley into an approximately vertical position, in which it guides onto the ground the straw thrown against its front side by the ejector drum. Here, it must be regarded as a disadvantage that separate chaff spreaders are required and that a large number of moving parts are needed to implement the various operating modes. 
       OBJECT OF THE INVENTION 
       [0010]    The underlying object of the invention is considered to be that of providing a harvester of the type stated at the outset in which the straw can be removed without problems in the swath deposit mode and in the chopping mode. 
         [0011]    According to the invention, this object is achieved by the teaching of patent claim  1 , features which develop the solution in an advantageous manner being presented in the further patent claims. 
         [0012]    A harvester comprises a chassis, which can be moved across a field in a forward direction, and a crop processing device mounted in the latter, which threshes and separates the crop picked up from a front-mounted harvesting attachment. The straw threshed out, which is substantially free of grain, is ejected through an outlet of the crop processing device and taken over by a rotating ejector drum, which conveys it rearwards and discharges it in free flight. The ejector drum is followed by a further conveyor, which is embodied as a drum conveyor operating in an overshot manner. A guiding device, which consists of a single pivotable flap, is arranged downstream of the drum conveyor and can be moved between a chopping position, in which it deflects the straw downwards into the straw chopper, and a swath deposit position, in which it allows the straw through rearwards to a chute, which is arranged to the rear of the straw chopper and on which the straw is discharged unchopped onto the ground. The flap is pivotally mounted above the drum conveyor at its front end, the end adjacent to the drum conveyor, in such a way that it can be pivoted about an axis between the swath deposit position and the chopping position. The flap has a shape which is made complementary to the envelope curve of the drum conveyor and hugs said curve. 
         [0013]    By this means it is ensured that a single pivotable flap is sufficient to provide a switchable guiding device for the straw. (In contrast to the conveyor belt in U.S. Pat. No. 7,066,810B), the drum conveyor has such a high straw discharge velocity that virtually all the straw is discharged rearwards to the chute in the swath deposit position, making a second pivotable flap for covering the straw chopper in swath deposit operation unnecessary. The shape of the flap is matched to the shape of the drum conveyor and deflects the straw in the respectively desired direction. 
         [0014]    In a possible embodiment, the flap comprises an upper section which extends obliquely rearwards and downwards from the axis in the chopping position and a section which adjoins the upper section and extends vertically downwards in the chopping position. The sections are accordingly matched to the shape of the drum conveyor, although it should be noted that they do not have to extend exactly in the directions mentioned but that it is sufficient if they include a component which extends in the direction mentioned. 
         [0015]    The flap preferably has a curved profile, i.e. a curved cross section, which can, in particular, be in the form of a circular arc. 
         [0016]    The upper, upstream section of the flap preferably extends horizontally rearwards above the flow of straw in the swath deposit position, while the lower, downstream section then extends obliquely rearwards and downwards and deflects the straw downwards onto the chute. 
         [0017]    The fact that, in the chopping position, the flap feeds the straw downwards into the inlet of the straw chopper and, in its swath deposit position, feeds it to the chute arranged to the rear of the straw chopper, which discharges it onto the ground to the rear of the straw chopper, makes it possible for a cleaning system to feed the crop residues discharged by it to the inlet of the straw chopper in swath deposit operation and in chopping operation, and this eliminates the expense of separate chaff spreaders. 
     
    
     
       ILLUSTRATIVE EMBODIMENT 
         [0018]    Two illustrative embodiments of the invention are explained with reference to the drawings, in which: 
           [0019]      FIG. 1  shows a partially sectioned side view of a harvester with an additional drum conveyor for straw removal and a single flap for changing between swath deposit and chopping operation, and 
           [0020]      FIG. 2  shows a view of a second embodiment of the harvester. 
       
    
    
       [0021]      FIG. 1  shows an agricultural harvester  10  with a chassis  12  having wheels  14 , which are in contact with the ground, are attached to the chassis  12  and serve to drive the harvester  10  in a forward direction, which is to the left in  FIG. 1 . Operation of the harvester  10  is controlled from the operator&#39;s cab  16 . A cutting section  18  is used to harvest a grain-containing crop and to feed it to a cross conveyor  20 . The harvested material is fed by the cross conveyor  20  to a guide drum  22 . The guide drum  22  guides the crop through an inlet transitional section  24  to an axial crop processing device  26 . In the text which follows, directional terms such as front and rear relate to the forward direction of the harvester  10 . 
         [0022]    The crop processing device  26  comprises a rotor housing and a rotor  36  arranged therein. The rotor  36  comprises a hollow drum  38 , to which processing elements for a feed section  40 , a threshing section  42  and a separating section  44  are attached. The feed section  40  is arranged at the front of the axial crop processing unit  26 . The threshing section  42  and the separating section  44  are situated longitudinally downstream and to the rear of the feed section  40 . In the feed section  40 , the drum  38  is frustoconical. The threshing section  42  comprises a frustoconical front section and a cylindrical rear section. The cylindrical separating section  44  of the drum  38  is situated at the end of the axial crop processing unit  26 . An axial crop processing unit  26  can also be replaced by a tangential threshing drum and an axial separating device or straw walker following on from it. 
         [0023]    Grain and chaff which fall through a concave associated with the threshing section  42  and through a separating grate associated with the separating section  44  are fed to a cleaning system  28  with a fan  46  and slotted sieves  48 ,  50 , to which an oscillating motion can be imparted. The cleaning system  28  removes the chaff and feeds the clean grain to a clean grain elevator (not shown) by means of a screw conveyor  52 . The clean-grain elevator deposits the clean grain in a grain tank  30 . The clean grain in the grain tank  30  can be unloaded onto a grain wagon, trailer or truck by an unloading screw conveyor  32 . Any remaining crop at the rear end of the lower slotted sieve  50  is fed back to the crop processing device  26  by means of a screw conveyor  54  and a tailings conveyor (not shown). The crop residues discharged at the rear end of the upper slotted sieve  48 , which essentially comprise chaff and small pieces of straw, are conveyed rearwards into an inlet  58  of a straw chopper  60  by a vibratory pan conveyor  56 . 
         [0024]    Threshed straw leaving the separating section  44  is expelled from the crop processing device  26  through an outlet  62  and fed to an ejector drum  64 . The ejector drum  64 , which interacts with a pan  66  arranged underneath it, throws the straw out towards the rear. To the rear of the ejector drum  64  and approximately at the vertical level of its axis of rotation, there is a further conveyor in the form of a drum conveyor  68  operating in an overshot manner. The drum conveyor  68  extends horizontally and transversely to the forward direction and can be made to rotate by a drive about its axis  70 , at which it is rotatably attached to the chassis  12 , in a direction of rotation in which it operates in an overshot manner and rotates clockwise in  FIG. 1 , as indicated by the arrow. A hydraulic motor is generally used to drive the drum conveyor  68 . In its construction, the drum conveyor  68  corresponds to the ejector drum  64  and comprises a rotationally symmetrical shell  72  with drivers  74  distributed around its circumference and rigidly attached to it. 
         [0025]    An upper wall  76  extending horizontally and in the forward direction is mounted above the ejector drum  64  and the drum conveyor  68 , closing off at the bottom an engine compartment  78  situated above it. A flap  80 , which is provided as a guiding device used to switch between swath deposit operation and chopping operation and which forms the only element of the guiding device, is pivoted to the wall  76  at its front end, the end adjacent to the drum conveyor  68 , in such a way that it can be pivoted about an axis  82  extending horizontally and transversely to the forward direction between a swath deposit position and a chopping position. In relation to the forward direction, the axis  82  is situated between the axis  70  of the drum conveyor  68  and the rear end of its envelope circle but could also be situated slightly behind it or in front of the axis  70 . The flap  80  comprises an upper section  84 , which, in the chopping position, in which the flap  80  is depicted in solid lines in  FIG. 1 , extends obliquely rearwards and downwards from the axis  82 , and a section  86  which adjoins the upper section and extends vertically downwards in the chopping position. The sections  84 ,  86  are each flat per se and are connected to one another by an angled transition. The shape of the flap  80  is accordingly matched to the shape of the drum conveyor  68 . 
         [0026]    Underneath and adjoining the lower and rear end of the flap  80 , without a gap (when the flap  80  is in the chopping position) is a plate  87 , which is firmly connected to the chassis  12 , extends obliquely rearwards and downwards and is connected to an adjoining chute  88 , which extends parallel to the plate  87  and on which the straw can slide downwards onto the ground in swath deposit operation. The straw swath can also be given a desired shape by guide skids or straw guide rakes (not shown) mounted on the upper side of the chute  88 . A plate  90  extending obliquely forwards and downwards and a vertical plate  92  are fitted in front of the plate  87 , forming with the plate  87  a triangular profile and constituting an upper and front cover for the inlet  58  of the straw chopper  60 . 
         [0027]    The flap  80  can be pivoted about the axis  82  between the chopping position, in which it is depicted by solid lines in the figure, and a straw deposit position, in which the flap  80  is depicted by broken lines in the figure, and that region of the flap  80  which is upstream relative to the flow of residual crop material (i.e. its upper section  84 ) extends rearwards, parallel to the wall  76  above the flow of straw, while that region of the flap  80  which lies downstream of the flow of residual crop material (i.e. its lower section  86 ) extends obliquely rearwards and downwards above the chute  83  and deflects the flow of straw downwards onto the chute  88 . 
         [0028]    Situated underneath the plates  87 ,  90  is the straw chopper  60 , which is made up of a housing  90  and a rotor  92 , which is arranged therein, can be rotated about a horizontal axis extending transversely to the forward direction and has cutter blades  94  distributed around the circumference of the rotor  92  and mounted in such a way as to oscillate. The chute  88  forms an upper housing for the straw chopper  60 . Two fans  98 , of which only one can be seen in  FIG. 1 , are provided downstream of an outlet  96  of the straw chopper  60 , said fans being arranged side by side below the chute  88 . The fans  98  have a number of air blades  100 , which are each connected rigidly to a shaft  102  extending orthogonally relative to the chute  88 . The shaft  102  can be made to rotate by a hydraulic motor  104  in each case. In the swath deposit position, the straw chopper  60  conveys only the crop residues out of the cleaning system  28  to the fans  98 , which distribute them on the ground approximately over the width of the cutting section  18 . It is also possible to use a. number of rigid or vibrating straw guide plates arranged side by side instead of the fans  98 . The straw chopper  60  could furthermore be provided with an upper housing that is independent of the chute  88 , and it would also be possible for the fans  98  to be fastened to this housing. A curved cover plate  108  is mounted underneath the drum conveyor  68 . 
         [0029]    For deposition of the straw in swath form (deposition of long straw), the flap  80  can be moved into its swath deposit position (depicted in broken lines), either manually by the operator using a suitable lever or from the operator&#39;s cab  16  by means of a power-operated drive (not shown). From the outlet  62  of the crop processing device  26 , the straw is fed to the ejector drum  64 , which throws it in free flight to the drum conveyor  68 . The sideways distribution of the straw can be optimized by means of, preferably adjustable, guide skids  106  arranged downstream of the ejector drum  68 . The drum conveyor  68  is operated in an overshot manner. As a result, the straw is actively thrown rearwards against the lower section  86  of the flap  80  and reaches the chute  76 , on which it slides onto the ground. Owing to the relatively high speed that the drum conveyor  68  can reach, which ensures that almost all the straw is discharged rearwards onto the chute  88 , there is no need for a further flap to cover the inlet  58  of the straw chopper  60  in swath deposit operation. 
         [0030]    In the chopping position, the flap  80  is pivoted downwards about the axis  82  relative to the swath deposit position, as shown in  FIG. 1 . The straw thrown against the flap  80  by the drum conveyor  68  is deflected downwards by the flap  80  and falls downwards into the inlet  58  of the straw chopper  60 , which chops it together with the crop residues from the cleaning system  28  and distributes it on the ground by means of the fans  98 . The rear end of the flap ( 80 ) is situated below the axis  70  of the drum conveyor  68 . 
         [0031]    In the second embodiment shown in  FIG. 2 , those elements which correspond to the first embodiment are denoted by the same references. The significant difference which should be mentioned is that the flap  80  has a profile curved in the form of a circular arc, with the result that the upper section  84  merges continuously into the lower section  86 . in the second embodiment, the plates  90  and  92  are furthermore omitted, and the front plate  87  situated ahead of the chute  88  is angled downwards and forwards relative to the chute  88 . Moreover, the axis  82  is situated ahead of the axis  70  of the drum conveyor  68 .