CN205389468U - Self -propelled forage grass results bundling machine - Google Patents

Abstract

The utility model discloses a self -propelled forage grass results bundling machine, include: whole vehicle bottom dish, the setting is in walk capable system on the whole vehicle bottom dish, the setting is in the cutting device of whole vehicle bottom dish front end, be close to the intake mechanism that cutting device set up, be located forage grass clamping device after the feeding device, be close to forage grass clamping device's comminution device, a crushed aggregates conveying mechanism that is used for backward carrying the forage grass after cuing up, be located forage grass binding apparatus after the crushed aggregates conveyor. The utility model discloses well disclosed self -propelled forage grass results bundling machine with cutting, the forage grass of forage grass transport, segmentation operation integration such as forage grass is smashed, forage grass beats bundle, form forage grass the cutting, transport, smash, beat a bundle combined operation, the multi -functional machine, the impurity such as soil that reduce forage grass and pollution forage grass quality contact, have guaranteed the forage grass quality.

Description

Self-propelled forage grass results bundling machine

Technical Field

The utility model relates to the technical field of agricultural machinery, more specifically say, relate to a self-propelled forage grass results bundling machine.

Background

Most of the existing forage grass for alfalfa and livestock feeding is realized by mechanical sectional harvesting operation, and the sectional harvesting generally comprises two modes, wherein one mode is as follows: the forage grass is cut off through the mowing machine, the forage grass is bundled by the bundling machine so as to be convenient for long-distance transportation, and the livestock is fed after the forage grass is crushed at the livestock feeding point. The other mode is as follows: cutting off forage grass by a mowing machine, crushing the forage grass by a crushing machine, bundling the forage grass by a bundling machine, and transporting the forage grass to a livestock breeding point for feeding.

However, both of these methods have a common problem in that the whole process is a sectional operation, and the forage grass is easy to be mixed with soil and dust during the transportation process of each stage, and the soil and dust can deteriorate the palatability of the forage grass and reduce the nutrition and quality of the forage grass.

Therefore, how to realize the continuous operation of the whole process from the reaping to the bundling of the forage grass and avoid the soil and the dust mixed in the forage grass is a technical problem which needs to be solved urgently by the technical personnel in the field at present.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model aims at providing a self-propelled forage grass results bundling machine to can realize the forage grass from reaping to the continuous operation of beating bundle whole process, avoid sneaking into earth and dust in the forage grass, guarantee the palatability and the nutritive value of forage grass.

In order to achieve the above object, the utility model provides a following technical scheme:

a self-propelled forage harvesting baler, comprising:

a chassis of the whole vehicle;

the running system is arranged on the whole vehicle chassis;

the cutting device is arranged at the front end of the whole vehicle chassis;

the feeding mechanism is arranged on the whole vehicle chassis and is close to the cutting device;

the forage grass clamping device is arranged on the whole vehicle chassis and is positioned behind the feeding mechanism;

the cutting device is arranged on the whole vehicle chassis and is close to the forage grass clamping device;

the crushed material conveying mechanism is arranged on the whole vehicle chassis and is used for conveying the chopped forage grass backwards;

the forage grass bundling device is arranged on the whole vehicle chassis and behind the crushed material conveying mechanism.

Preferably, the running system comprises:

an engine;

the power distributor is provided with a first output belt wheel and a second output belt wheel which are coaxial;

a first intermediate transmission having a first transmission input pulley connected to the first output pulley belt, and a first transmission output pulley for outputting power;

the driving axle is provided with a driving axle input belt wheel, the driving axle input belt wheel is connected with the first intermediate driver output belt wheel through a belt, and two ends of an output shaft of the driving axle are provided with driving wheels for providing power for the whole vehicle;

driven wheels arranged on two sides of the whole vehicle chassis;

and the crawler belt is wound on the driving wheel and the driven wheel.

Preferably, the shredding device comprises a rotating roller and a plurality of cutters provided on the rotating roller.

Preferably, the power required by the forage chopping device and the forage baling device is transmitted by a chopping baling drive system, and the chopping baling drive system includes:

the input end of the first hydraulic clutch device is connected with a second output belt wheel belt of the power divider;

a second intermediate transmission having a second transmission input pulley connected to the output of the first hydraulic clutch and a second transmission output pulley for outputting power;

the shredding power input belt wheel and the shredding power output belt wheel are respectively arranged at two ends of the rotating roller, and the shredding power input belt wheel is connected with the second transmission output belt wheel through a belt;

the input end of the second hydraulic clutch device is connected with the chopping power output belt wheel;

the bundling power input belt wheel is arranged at the end part of the forage grass bundling device and is connected with the output end of the second hydraulic clutch device.

Preferably, the forage grass cutting device further comprises an inclined conveying device arranged between the feeding mechanism and the forage grass clamping device, the forage grass clamping device is arranged higher than the feeding mechanism, and the feeding mechanism comprises an upper feeding roller and a lower feeding roller arranged opposite to the upper feeding roller; the forage grass clamping device comprises an upper clamping roller and a lower clamping roller, and the inclined conveying device comprises a lower conveying roller close to the feeding mechanism and an upper conveying roller close to the forage grass clamping device.

Preferably, the power of the fodder clamping device, the inclined conveyor device and the chaff conveyor mechanism is transmitted by a fodder clamping and conveying transmission system, and the fodder clamping and conveying transmission system comprises:

a hydraulic pump connected to the engine;

a hydraulic motor driven by the hydraulic pump;

a fourth intermediate drive connected to an output of the hydraulic motor;

a coupling for connecting said fourth intermediate drive to said upper clamping roller;

the first output chain wheel and the first output gear are arranged on the upper clamping roller;

the second input chain wheel is fixedly connected to the upper conveying roller and located on the same side as the first output chain wheel, and the first output chain wheel is in chain transmission connection with the second input chain wheel;

the second output chain wheel is fixedly connected to the upper conveying roller and is positioned on the other side of the upper conveying roller;

the third input chain wheel is fixedly connected to the lower conveying roller and is in chain transmission with the second output chain wheel;

the first intermediate shaft is provided with a second input gear meshed with the first output gear and a fourth output chain wheel;

and the fifth input chain wheel is arranged on the crushed aggregate conveying mechanism and is in chain transmission with the fourth output chain wheel.

Preferably, the cutting device comprises two disc cutters, and the disc cutters are connected with a cutting device transmission through rotating shafts; the feeding mechanism is a spiral auger.

Preferably, the power of the cutting device and the feed mechanism is transmitted by a forage cutting and feeding transmission system, and the forage cutting and feeding transmission system comprises:

a third intermediate drive having an input pulley in belt connection with the second drive input pulley;

the input end of the intermediate transmission is connected with the transmission shaft of the third transmission, and the output end of the intermediate transmission is connected with the input end of the cutting device transmission;

and the feeding mechanism input belt wheel is fixedly connected to the screw auger rotating shaft and is in belt transmission connection with the input belt wheel of the third intermediate transmission.

Preferably, the device further comprises a crushed aggregate pushing device which is arranged above the crushed aggregate conveying mechanism and used for pushing crushed aggregates, and the crushed aggregate pushing device comprises a pushing roller and a pushing sheet which is arranged on the circumference of the pushing roller.

Preferably, the device also comprises an agent adding device which is arranged above the small aggregate poking device and is used for adding the agent into the small aggregates.

The utility model discloses a self-propelled forage grass results bundling machine, whole car chassis line has set up walking line system, cutting device, feeding mechanism, forage grass clamping device, comminution device, crushed aggregates conveying mechanism and forage grass bundling device. As will be appreciated by those skilled in the art, the cutting device is disposed at the forward end of the chassis and is operative to cut the forage and then feed the forage rearwardly through the feed mechanism, the forage clamping device is operative to clamp the forage to facilitate the chopping device chopping the forage, and the chopped forage is fed through the chaff feed mechanism to the forage baling device for baling.

Therefore, the utility model discloses a self-propelled forage grass results bundling machine transports, the forage grass is smashed, the forage grass beats bundle equal segmentation operation with the cutting of forage grass and integrates, forms the cutting of forage grass, transports, smashes, beats bundle combined operation, and a tractor serves several functions, reduces impurity contact such as the soil of forage grass and pollution forage grass quality, has guaranteed the forage grass quality.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic front view of a self-propelled forage harvesting and bundling machine provided in an embodiment of the present invention;

FIG. 2 is a schematic view of the traveling system of the self-propelled forage harvesting baler of FIG. 1;

fig. 3 is a schematic top view of the self-propelled forage harvesting baler of fig. 1.

Wherein,

1 is a cutting device, 2 is a feeding mechanism, 3 is an inclined conveying device, 4 is a forage clamping device, 5 is a whole vehicle chassis, 6 is a chopping device, 7 is a crushed material conveying mechanism, 8 is a crushed material pushing device, 9 is a forage bundling device, 10 is a dose adding device, 11 is a cab, 12 is an engine, 13 is a power distributor, 14 is a first output belt wheel, 15 is a second output belt wheel, 16 is a first intermediate transmission, 17 is a first hydraulic clutch device, 18 is a first transmission input belt wheel, 19 is a first transmission output belt wheel, 20 is a driving axle input belt wheel, 21 is a driving axle, 22 is a power distributor intermediate shaft, 23 is a second intermediate transmission, 24 is a second intermediate transmission shaft, 25 is a second transmission input belt wheel, 26 is a second transmission output belt wheel, 27 is a chopping power input belt wheel, 28 is a chopping power output belt wheel, 29 is a second hydraulic clutch device, 30 is a bundling power input pulley, 31 is an input pulley of a third intermediate transmission, 32 is a third intermediate transmission, 33 is a third intermediate transmission shaft, 34 is an output end of an intermediate transmission, 35 is a feeding mechanism input pulley, 36 is a cutting device transmission, 37 is a hydraulic motor, 38 is a fourth intermediate transmission, 39 is a first output sprocket, 40 is a second input sprocket, 41 is a second output sprocket, 42 is a third input sprocket, 43 is a first output gear, 44 is a second input gear, 45 is a fourth output sprocket, 46 is a fifth input sprocket, 47 is a scrap drive roll.

Detailed Description

The core of the utility model is to provide a self-propelled forage grass results bundling machine to can realize the forage grass from reaping to the continuous operation of beating bundle whole process, sneak into earth and dust in avoiding the forage grass, guarantee the palatability and the nutritive value of forage grass.

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1, fig. 1 is a schematic front view of a self-propelled forage harvesting and bundling machine according to an embodiment of the present invention.

The utility model discloses a self-propelled forage grass results bundling machine, can realize the cutting of forage grass, transport, smash, bundle combined operation, a tractor serves several functions to effectively reduce the pollution of forage grass, improve the nutritive value of forage grass.

The self-propelled forage harvesting and bundling machine comprises a whole vehicle chassis 5, and comprises a cutting device 1, a feeding mechanism 2, a forage clamping device 4, a chopping device 6, a crushed material conveying mechanism 7 and a forage bundling device 9 from the front end to the rear end in sequence according to the operation sequence of bundling forage by a cutting knife, wherein each mechanism and each device take the whole vehicle chassis 5 as an installation foundation, and the lower end of the whole vehicle chassis 5 is provided with a walking system so as to realize the walking of the whole forage harvesting and bundling machine.

It can be seen from the above embodiment that the self-propelled forage harvesting and bundling machine disclosed in the embodiment of the present invention has a walking system, a cutting device 1, a feeding mechanism 2, a forage clamping device 4, a chopping device 6, a crushed material conveying mechanism 7 and a forage bundling device 9 arranged on the whole vehicle chassis 5 rows. As will be appreciated by those skilled in the art, the cutting device 1 is disposed at the forward end of the vehicle chassis 5 and is operative to cut the forage and feed it rearwardly through the feed mechanism 2, and the forage clamping device 4 is operative to clamp the forage to facilitate the chopping of the forage by the chopping device 6, and the chopped forage is fed through the chopping mechanism 7 to the forage baling device 9 for baling.

The self-propelled forage harvesting and bundling machine integrates the operations of cutting, transporting, crushing and bundling forage into a whole, so that the combined operation of cutting, transporting, crushing and bundling forage is realized, the machine has multiple functions, the contact of the forage with impurities such as soil polluting the quality of the forage is reduced, and the quality of the forage is ensured.

Referring to fig. 2, the traveling system disclosed in the embodiment of the present invention includes an engine 12, a power distributor 13, a first intermediate transmission 16, a drive axle 21, driven wheels, and a track, and specifically, an input end of the power distributor 13 is connected to an output end of the engine 12, and the power divider 13 is provided with a first output pulley 14 and a second output pulley 15 which are coaxial, and the first intermediate transmission 16 is provided with a first transmission input pulley 18 belt-connected with the first output pulley 14, and a first transmission output belt wheel 19 for outputting power, a driving axle 21 is provided with a driving axle input belt wheel 20, the driving axle input belt wheel 20 is in belt connection with the first transmission output belt wheel 19, and the both ends of the output shaft of transaxle 21 are provided with the drive wheel that provides power for whole car, and the both sides of vehicle chassis are provided with from the driving wheel, and the track is around establishing on drive wheel and follow driving wheel. The whole vehicle adopts a crawler-type running system, so that the whole vehicle has excellent maneuvering performance in a field.

The optional form of comminution device 6 is not restricted, and comminution device 6 can adopt round roller sword or spoke sword, considers manufacturing cost and convenience in the design, the embodiment of the utility model provides an in comminution device 6 adopt round roller sword formula, specific, comminution device 6 includes rotatory roller and sets up a plurality of cutters on rotatory roller.

The power required by the chopping device 6 and the forage baling device 9 is transmitted by a chopping baling transmission system, as illustrated in figure 3, which includes a first hydraulic clutch 17, a second intermediate transmission 23, a chopping power input pulley 27, a shredding power take-off pulley 28, a second hydraulic clutch 29, a bundling power take-off pulley 30, the input of the first hydraulic clutch 17 being belt-connected to the second output pulley 15 of the power distributor 13, the second transmission input pulley 25 of the second intermediate transmission 23 being belt-connected to the output of the first hydraulic clutch 17, the shredding power input pulley 27 being belt-connected to the second transmission input pulley 26 of the second intermediate transmission 23, the input of the second hydraulic clutch 29 being connected to the shredding power take-off pulley 28, the bundling power input pulley 30 being connected to the output of the second hydraulic clutch 29. It can be seen that the power output by the engine 12 is transmitted through the power splitter 13 to the first hydraulic clutch 17, then to the second intermediate transmission 23, and then through the second intermediate transmission 23 to the shredding power input pulley 27; meanwhile, the power is also transmitted to the position of the second hydraulic clutch device 29, and then is transmitted to the bundling power input pulley 30 through the second hydraulic clutch device 29 for bundling.

As shown in fig. 1, the self-propelled forage harvesting and bundling machine disclosed in this embodiment further includes an inclined conveying device 3 disposed between the feeding mechanism 2 and the forage holding device 4, the forage holding device 4 is disposed higher than the feeding mechanism 2, and the feeding mechanism 2 includes an upper feeding roller and a lower feeding roller disposed opposite to the upper feeding roller; forage grass clamping device 4 includes centre gripping top roller and centre gripping lower roll, and slope conveyor 3 includes the lower conveying roller that is close to the setting of feed mechanism 2 and is close to the last conveying roller that forage grass clamping device 4 set up.

As shown in fig. 3, the power of the forage clamping device 4, the inclined conveyor 3, and the chaff conveyor 7 is transmitted by a forage clamping and conveying transmission system, and the forage clamping and conveying transmission system includes:

a hydraulic pump connected to the engine 12;

a hydraulic motor 37 driven by the hydraulic pump;

a fourth intermediate transmission 38 connected to the output of the hydraulic motor 37;

a coupling for connecting the fourth intermediate drive 38 and the clamping upper roller;

a first output sprocket 39 provided to sandwich the upper roller, and a first output gear 43;

the second input chain wheel 40 is fixedly connected to the upper conveying roller and is positioned at the same side as the first output chain wheel 39, and the first output chain wheel 39 is in chain transmission connection with the second input chain wheel 40;

a second output chain wheel 41 fixedly connected to the upper conveying roller and positioned at the other side of the upper conveying roller;

a third input chain wheel 42 fixedly connected on the lower conveying roller and chain-driven with the second output chain wheel 41;

a first intermediate shaft provided with a second input gear 44 and a fourth output sprocket 45 meshing with the first output gear 43;

a fifth input sprocket 46 arranged on the scrap conveyor 7 and chain-driven with the fourth output sprocket 45.

The power of the engine 12 is transmitted to the forage clamping device 4, the inclined conveyor 3 and the crushed material conveying mechanism 7 through the forage clamping and conveying transmission system.

Referring to fig. 3, the cutting device 1 of the embodiment of the present invention specifically includes two disc cutters, and the disc cutters are connected to the cutting device transmission 36 through a rotating shaft; the feeding mechanism 2 is a screw auger.

The power of the cutting device 1 and the feeding mechanism 2 is transmitted by a forage cutting and feeding transmission system, and the forage cutting and feeding transmission system comprises:

a third intermediate transmission, the input pulley of which is belt-connected with the second transmission input pulley 25;

an intermediate transmission, the input of which is connected to the drive shaft of the third transmission and the output of which is connected to the input of the cutting device transmission 36;

and the feeding mechanism input belt wheel 35 is fixedly connected to the screw auger rotating shaft, and the feeding mechanism input belt wheel 35 is in belt transmission connection with an input belt wheel of the third intermediate transmission device.

Therefore, all the mechanisms on the whole forage harvesting and bundling machine are driven by one engine 12 to operate, and the layout structure among all the mechanisms is compact and reasonable. In order to further optimize the technical solution in the above embodiment, the present embodiment further includes a small aggregate pushing device 8 disposed above the small aggregate conveying mechanism 7 and used for pushing the small aggregates, and the small aggregate pushing device 8 includes a pushing roller and a pushing piece disposed in the circumferential direction of the pushing roller.

Furthermore, in order to facilitate the storage of the fodder, it is necessary to add an agent for increasing the storage period to the fodder, and for this purpose, the fodder harvesting and bundling machine disclosed in this embodiment further comprises an agent adding device 10 disposed above the small aggregate poking device 8 and used for adding the agent to the small aggregates.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A self-propelled forage grass harvesting and bundling machine, comprising:

a vehicle chassis (5);

the running system is arranged on the whole vehicle chassis (5);

the cutting device (1) is arranged at the front end of the whole vehicle chassis (5);

the feeding mechanism (2) is arranged on the whole vehicle chassis (5) and is close to the cutting device (1);

the forage grass clamping device (4) is arranged on the whole vehicle chassis (5) and is positioned behind the feeding mechanism (2);

the cutting device (6) is arranged on the whole vehicle chassis (5) and is close to the forage grass clamping device (4);

the crushed material conveying mechanism (7) is arranged on the whole vehicle chassis (5) and is used for conveying the chopped forage grass backwards;

the forage grass bundling device (9) is arranged on the whole vehicle chassis (5) and behind the crushed material conveying mechanism (7).

2. The self-propelled forage harvesting baler of claim 1, wherein said travelling system comprises:

an engine (12);

the power divider (13) is connected with the input end of the engine (12), and a first output belt wheel (14) and a second output belt wheel (15) which are coaxial are arranged on the power divider (13);

a first intermediate transmission (16), the first intermediate transmission (16) having a first transmission input pulley (18) in belt connection with the first output pulley (14), and a first transmission output pulley (19) for outputting power;

the driving axle (21) is provided with a driving axle input belt wheel (20), the driving axle input belt wheel (20) is in belt connection with the first intermediate transmission device output belt wheel (19), and two ends of an output shaft of the driving axle (21) are provided with driving wheels for providing power for the whole vehicle;

driven wheels arranged on two sides of the whole vehicle chassis (5);

and the crawler belt is wound on the driving wheel and the driven wheel.

3. The self-propelled forage harvesting baler according to claim 2, characterized in that the chopping device (6) comprises a rotating roller and a plurality of cutting knives arranged thereon.

4. The self-propelled forage harvesting baler of claim 3, wherein the power required by the chopping device (6) and the forage baling device (9) is transmitted by a chopping baling transmission system, and wherein the chopping baling transmission system comprises:

the input end of the first hydraulic clutch device (17) is connected with a belt of a second output belt wheel (15) of the power divider (13);

a second intermediate transmission (23), said second intermediate transmission (23) having a second transmission input pulley (25) connected to the output of said first hydraulic clutch device (17), and a second transmission output pulley (26) for outputting power;

a shredding power input pulley (27) and a shredding power output pulley (28) respectively arranged at both ends of the rotating roller, and the shredding power input pulley (27) is in belt connection with the second transmission output pulley (26);

a second hydraulic clutch device (29) with the input end connected with the shredding power output belt wheel (28);

the bundling power input belt wheel (30) is arranged at the end part of the forage bundling device (9), and the bundling power input belt wheel (30) is connected with the output end of the second hydraulic clutch device (29).

5. The self-propelled forage harvesting baler of claim 2, further comprising an inclined conveyor (3) disposed between the feed mechanism (2) and the forage gripping device (4), the forage gripping device (4) being disposed higher than the feed mechanism (2), and the feed mechanism (2) comprising an upper feed roller and a lower feed roller disposed opposite the upper feed roller; the forage grass clamping device (4) comprises an upper clamping roller and a lower clamping roller, and the inclined conveying device (3) comprises a lower conveying roller close to the feeding mechanism (2) and an upper conveying roller close to the forage grass clamping device (4).

6. The self-propelled forage harvesting baler of claim 5, wherein the power of the forage clamping device (4), the inclined conveyor device (3) and the chaff conveyor mechanism (7) is transmitted by a forage clamping conveyor transmission system, and wherein the forage clamping conveyor transmission system comprises:

a hydraulic pump connected to the engine (12);

a hydraulic motor (37) driven by the hydraulic pump;

a fourth intermediate transmission (38) connected to the output of the hydraulic motor (37);

a coupling for connecting said fourth intermediate drive (38) and said upper clamping roller;

a first output sprocket (39) provided on the pinch upper roller, and a first output gear (43);

the second input chain wheel (40) is fixedly connected to the upper conveying roller and located on the same side as the first output chain wheel (39), and the first output chain wheel (39) is in chain transmission connection with the second input chain wheel (40);

a second output chain wheel (41) fixedly connected to the upper conveying roller and positioned on the other side of the upper conveying roller;

a third input chain wheel (42) fixedly connected on the lower conveying roller and chain-driven with the second output chain wheel (41);

a first intermediate shaft provided with a second input gear (44) and a fourth output sprocket (45) meshing with the first output gear (43);

a fifth input sprocket (46) arranged on the scrap conveying mechanism and chain-driven with the fourth output sprocket (45).

7. The self-propelled forage harvesting baler according to claim 4, characterized in that the cutting device (1) comprises two disc cutters connected to a cutting device transmission (36) by a rotary shaft; the feeding mechanism (2) is a spiral auger.

8. The self-propelled forage harvesting baler according to claim 7, wherein the power of the cutting device (1) and the feeding mechanism (2) is transmitted by a forage cutting and feeding transmission system, and wherein the forage cutting and feeding transmission system comprises:

a third intermediate transmission (32), the input pulley of the third intermediate transmission (32) being in belt connection with the second transmission input pulley (25);

an intermediate gearbox having an input connected to the drive shaft of the third intermediate transmission (32) and an output connected to an input of the cutting device gearbox (36);

and the feeding mechanism input belt wheel (35) is fixedly connected to the screw auger rotating shaft, and the feeding mechanism input belt wheel (35) is in belt transmission connection with the input belt wheel (31) of the third intermediate transmission.

9. The self-propelled forage harvesting baler according to any one of claims 1 to 8, further comprising a chaff pusher (8) arranged above the chaff conveyor (7) and configured to push away chaff, the chaff pusher (8) comprising a pusher roller and a pusher tab arranged circumferentially around the pusher roller.

10. The self-propelled forage harvesting baler according to claim 9, further comprising an agent adding device (10) arranged above said chaff pusher (8) and adapted to add an agent to the chaff.