DE19547348A1 - Self-propelled chopping harvester - Google Patents

Abstract

A chopping mechanism (3) at the front wheels is followed by a discharge shaft (4), the driver's cab (6) being above the mechanism and in front of the shaft. An engine (8) at the rear wheels (7) drives all machinery and travel gear, its chamber (10) being enclosed at the rear, top and sides by cladding (11) extending to the cab rear wall (12). A rotary sieve is included, together with a radiator and fan (19). The part of the cladding between the rear end of the shaft and the forward end of the engine is formed by a casing (13) impenetrable by air at the top, bottom and sides. The forward end of the casing is closed at the top, and has at the bottom a discharge opening (15) extending for its full width and directed towards the shaft and chopping mechanism. The rear end (16) of the casing is open.

Description

The invention relates to a self-propelled forage harvester for agricultural Crops with a drive motor, a cooling unit with cooler fan and a rotating screening device assigned to the cooling unit for retaining Harvest parts and dirt particles present in the sucked-in cooling air optionally from a fixed cleaning device from the surface of the rotating screening device can be removed.

The need to use such rotating screening devices is only in the in recent years with the use of powerful self-propelled forage harvesters the one that has a drive motor with an output of about 200 kilowatts and more point. Here, high cooling capacities for several coolers have to be applied, which one time a maximum possible area for the cooling unit and thus also for the rotie rende sieving device required and on the other hand because of the maintenance the high cooling capacity over a long period of time when using the above-mentioned Rei cleaning device forces.

For such self-propelled forage harvesters, two design variants are currently available became known.

One solution is in EP 0 335 256 B1 or in the prospectus of the American company JOHN DEERE for their forage harvester types "6610" to "6910" with the Druckver Merk "YY 14413 D" included. There is between the steered rear the drive motor, the output shaft of which is viewed in the direction of travel forward shows the drive power for all working elements including the adapter and is removed for the traction drive. From the rear seen in the direction of travel At the end of the output shaft, the radiator fan is driven by means of a belt drive, behind which the cooling unit and the rotating sieve with cleaning device and a sieve-shaped rear wall for holding back large-volume harvesting Good parts or dirt particles are arranged. The cleaning device is with the  Exhaust pipe of the drive motor connected so that it is on the rotating screen settling crop parts and dirt particles according to the injector principle suctioned off and led together with the engine exhaust to the outside. The disadvantage of this solution is the arrangement of the cooling unit with the rotate the screening device at the rear end of the self-propelled forage harvester from two Reasons, because the air in this room is mostly contaminated with dirt and flying crop parts are burdened and on the other hand this results an unfavorable axle load distribution. The latter fact is due to the fact that the heavy drive motor in because of the light rotating screen Seen in the direction of travel had to find space ahead, which caused the rear wheels are no longer adequately loaded if a heavy adapter is attached at the front. In addition, the width of the fairing is in the area of the steered rear wheels limits, so that thereby also for the cooling unit and the rotating sieve rich available space is not large enough. The consequence of this is that the Cooling capacity in the highest performance range is no longer sufficient and that a manual les cleaning of the cooling unit and the rotating sieve due to very high cooling air speed is to be carried out more frequently.

Another very important disadvantage is the so-called manual cleaning connected, the cooling unit and the rotating screen device with compressed air must be blown out against the direction of flow in normal cooling operation sen. The drive motor makes access to the cooling unit very difficult considerable, which has a negative effect especially in the middle area. Finally, there are also disadvantages of the free blowing, which is limited to the drive motor of crop parts and dirt particles to name and those with the derivation of these Parts related to the engine exhaust gas fire hazard.

With the DE-OS 40 33 204 or the prospectus of the German company CLAAS with the Printed notice "8/94 (M + E) dt. 30 / 190.433. 6" is "820" for their forage harvester types until "880" another solution became known, in which the transverse to the driving line  device built-in drive motor above the steered rear wheels. On the the Front wall delimiting engine compartment is inside the radiator fan and in front of that Cooling unit attached. The radiator fan is driven by the output shaft of the An drive motor by means of a belt drive and a bevel gear arranged downstream driven. Seen in the direction of travel is the rotating sieve with Reini supply device attached to the front of the engine compartment so that its Rotation axis is aligned with that of the radiator fan. The rotating screening device with the air conditioning cooler and the hydraulic oil cooler are each a vertical vertical axis can be swiveled forward towards the chute.

The disadvantage of this solution is that the rotating screen device in a ge closed room, which is from the chopper unit and from the chute Coming crop parts are heavily soiled. The cooling air flow sucks this Ern parts, so that the cooling air intake through the rotating sieve hindered and the pollution of the cooling unit is promoted. This works out against the possible cooling capacity and leads to more frequent manual cleaning of the cooling unit and the rotating sieve. This creates white tere disadvantages, because on the one hand the manual cleaning of the fixed water cooler and the intercooler analogous to the solution described above complicated due to the poor accessibility from the side of the drive motor is. On the other hand is also the manual cleaning of the rotating sieve device, the Hydraulic oil cooler and the climate cooler in the swung-out state time-consuming and problematic because each time the closed room is opened first and must be blown out and on the other hand the rotating sieve device, the Hydraulic oil cooler and the air conditioning cooler were not extended far enough for reasons of space can be pivoted. After all, this solution also uses the Cooling air flow for blowing out crop parts limited to the drive motor. Another disadvantage would be the considerable effort required to drive the cooler fan through the bevel gear and the separate hydraulic motor for driving the to mention rotating screening device.

Therefore, the invention has for its object a self-propelled forage to create for agricultural crops, in which the rotating sieve rich device with cleaning device, the cooling unit and the cooling fan so in des sen basic structure are classified that a favorable axle load distribution arises and that from the perspective of the longest possible intervals between the manual cleaning largely in front of flying crop parts and dirt particles protected position that the rotating sieve and the Kühlaggre gat for the purpose of achieving a high cooling capacity can that accessibility to the cooling unit and the rotating sieve direction is in no way restricted and that manual cleaning in short Time can be performed that the cooling air flow generated by the radiator fan also for blowing out crop parts for as many assemblies as possible that can and that the manufacturing costs for the drive parts for the rotating Screening device and the radiator fan is minimal.

This object is achieved according to the invention by the features of the main claim solved.

The features listed in the subclaims develop the invention in advance in a partial manner, to which express reference is therefore made here. By forming the panel in the area between the rear end of the Ejection chute and the front end of the drive motor as approximately airtight te, closed casing and the rotating screening device arranged therein and the radiator fan with rotation axes pointing transversely to the direction of travel the cooling air drawn in from outside flows into the closed casing. By the tightness of the cooling air can only be achieved by the closed casing Leave the front and rear end faces as seen in the direction of travel. The Ver Closing the front face in the overhead area prevents the warmed cooling air flows in the direction of the driver's cabin, making it inadmissible would be heated. The discharge opening, on the other hand, is located in the lower area  directs the cooling air past the chute to the chopper unit, thereby this and above all its drives are continuously blown free of crop parts will. The rear face of the closed casing, however, is complete open, so that with the cooling air flowing there the drive motor, its outputs and the exhaust system is kept clean.

It is expressly pointed out that the scope of the invention also then is not left if suitable air guiding elements in the flow direction of the Cooling air is inserted and if the described cover or leave it open the front and rear faces of the closed sheath vary somewhat becomes. It is crucial that there is always a sufficient amount of cooling air to describe NEN purpose is directed towards the chopper unit and into the engine compartment, the au also ver seen uniformly across the width of the self-propelled forage harvester shares.

It has proven to be expedient to use the rotating sieve device with the cooling element gregat and the radiator fan in the right-hand side of the to accommodate the closed sheathing, because on the left side there is space for Climbing for the driver's cabin is needed. It is also the accessibility to the Cooling unit easiest possible via the ascent. Despite this expedient Arrangement on the right side, the invention is also considered to be realized if the accommodation takes place elsewhere in the closed casing. The use of several rotating screening devices is also part of the Er invention when arranged according to the invention in the closed casing are.

The central placement of the rotating screening device with the cooling unit and the radiator fan between the rear end of the chute and the front end of the drive motor allows a very large area of this Assemblies.  

It is also useful to have the rotating sieve device on the outside of the cooling unit to attach the gat housing via a swivel frame, the vertical axis of which is on the side Cooling unit housing is attached and so the pivoting out of the rotating Screening device, the cleaning device and also on the swivel frame attached air conditioning cooler. So that swiveling out without disassembly any component is possible, is located between those working with negative pressure tendency cleaning device and generate the necessary vacuum the suction impeller on the side of the vertical axis an elastic connecting tube. If there are three coolers in a row in the cooling unit, emp if the middle one is also turned outside in the cooling unit housing to accommodate swivel. This leaves only one in the cooling unit housing Range of fixed coolers, which is what high-performance forage harvesters in the Re gel will be the water cooler, the shop air cooler and the transmission oil cooler, which then during manual cleaning with compressed air with the rotating sieve swiveled away can be blown freely from the inside. The rotating sieve rich device with the air conditioning cooler and the middle cooler are individually swung out Condition cleaned.

To protect the rotating screening device from flying crop parts and Dirt particles are covered with a side panel that is closed at the top sen and has air inlet openings in the remaining surfaces. The multitude of Air inlet openings guarantee that the air inlet speed is low remains and thus a seizure of crop parts and dirt particles in the Air inlet openings is almost prevented. It also lends itself to that Air inlet openings in the front of the pivoting side panel to train significantly larger than the rest because there the cleanest area of one self-propelled forage harvester.

The inventive position of the axes of rotation of the radiator fan and the rotie Renden sieving device transverse to the direction of travel is also on the view of the Antriebsge design an expedient solution because it has one Rotati onsachsen rectified drive shaft the rotating sieve and the Cooling fan can be driven with simple enveloping drives. The Saugge  blower wheel is attached directly to the drive shaft and it is also by itself a simple envelope drive driven by the transverse drive motor. The advantages of the invention are seen in the fact that such an arrangement of Assemblies from the point of view of the axle load distribution is optimal because of the drive motor completely unaffected by the location of the rotating screen and Cooling unit can be housed far back. In the area of ge Enclosed sheathing is also available so that the rotating sieve device and the cooling unit are designed to be very large can what is mandatory for self-propelled forage harvesters of the upper performance class necessary is. Access to the cooling unit from inside the machine and to the rotating sieve and the cooling unit from the outside is out swiveled condition possible. This makes manual cleaning possible fast and it can be done with the best effect. It is also an advantage that the cooling air flow generated by the radiator fan is now also next to the previously be knew blowing out the drive motor now to keep the chopped crop clean gregates and its drives can be used. The manufacturing costs for the An Drives for the rotating screen device and the cooler fan is low, since none costly transmission is present. Finally, another advantage is the protected one Location of the rotating sieve to name, which makes it manual cleaning only needs to be done very rarely.

The invention will now be explained in more detail using an exemplary embodiment. In the drawings shows

Fig. 1 is a right side view of a self-propelled forage harvester with a partially opened side panel in the region of the rotating filter device,

Fig. 2 is a left side view of a self-propelled forage harvester in section through its mid-plane,

Fig. 3 is a plan view of a self-propelled forage harvester with partially open casing in the region of the drive motor and the radiator fan,

Fig. 4 is a section according to Fig. 3,

Fig. 5 is a plan view of FIG. 4 to the rotating screen means and the refrigeration unit in the ready state without side panels,

Fig. 6 is a plan view of FIG. 4 of the rotating screen device and the cooling unit opened from above, without side panels.

Figs. 1 to 3 show a self-propelled forage harvester in the base structure having a front mounted adapter 1, to which a arranged in the region of the front wheels 2 chopping unit 3 is connected. The chopping unit 3 is an ejection shaft 4 downstream, on the upper end of an ejection sheet 5 is pivotally mounted. The driver's cabin 6 is located above the chopper unit 3 and in front of the chute 4 . Provided between its rear wheels 7 is a drive motor 8 with an output shaft 9 oriented transversely to the direction of travel, which is equipped on both sides with output options for driving the working elements, the adapter 1 and the travel drive. The cladding 11 enveloping the engine compartment 10 from behind, above, on the left and right sides extends forward into the region of the rear wall 12 of the driver's cab 6 . The located between the rear end of the ejection chute 4 and the front end of the drive motor 8 part of the Verklei extension 11 is in the form of a closed casing 13 , that is, it is approximately air-tight down, up, left and right side. Whose front end face 14 seen in the direction of travel is also closed in the upper region and below it has a discharge opening 15 pointing in the direction of the discharge chute 4 and the chopping unit 3 . The engine compartment 10 show de rear end face 16 of the closed casing 13 is open throughout.

On the right side of the closed casing 13 seen in the direction of travel, a rotating screen device 17 is mounted together with a cooling unit 18 and egg cooler fan 19 in such a way that the axes of rotation of the rotating screen device 17 and the cooler fan 19 pointing in the same direction transversely to the direction of travel. All of the modules mentioned are located approximately in the middle in the closed jacket 13 . The rotating screen device 17 is placed by means of a pivoting frame 20 from the outside onto the cooling unit housing 21 , which passes through the closed jacket 13 and to which the wind hood 22 and the radiator fan 19 connect on its opposite side. The swing frame 20 is mounted externally on the cooling unit housing 21 via a laterally attached to the cooling unit housing 21 vertical axis 23 outwardly pivotable. In this embodiment, the complete cooling unit 18 consists of the cooling unit housing 21 , the water cooler 24 , the charge air cooler 25 , the hydraulic oil cooler 26 , the transmission oil cooler 27 and the air conditioning cooler 28 . The water cooler 24 , the transmission oil cooler 27 and the charge air cooler 25 are arranged side by side in the cooling unit housing 21 and firmly connected to it. In addition, there is still in the cooling unit housing 21 which can be pivoted ver about a separate vertical axis 29 outward hydraulic oil cooler 26th The air conditioning cooler 28 is arranged upstream of the hydraulic oil cooler 26 and is firmly connected to the swivel frame 20 .

To drive the rotating screen device 17 and the radiator fan 19 is between the cooling unit housing 21 and the drive motor 8 a transverse to the direction of drive shaft 30 is provided, which is driven by a belt drive 31 from the drive motor 8 . From one end of the rotating device 17 is driven with the belt drive 32 with a large ratio and from the other end at high speed and also via a belt drive 33, the radiator fan 19th In addition, a suction fan serad 34 is rotatably connected to the drive shaft 30 , which is located in the upper region of a hollow profile 35 which is only open at the bottom.

The rotating sieve device 17 is also equipped with a cleaning device 36 , which is connected to the hollow profile 35 in the vicinity of the suction fan wheel 34 via an elastic connection tube 37 .

Finally, the part of the rotating screening device 17 projecting beyond the closed casing 13 is covered with a pivotable side cover 38 , which is closed at the top and has air inlet openings 39 on all other sides.

Reference list

1 adapter
2 front wheels
3 chopping unit
4 chute
5 discharge chutes
6 driver's cab
7 rear wheels
8 drive motor
9 output shaft
10 engine compartment
11 paneling
12 rear wall
13 closed casing
14 front face
15 outlet opening
16 rear face
17 rotating screening device
18 cooling unit
19 Radiator fan
20 swing frames
21 cooling unit housing
22 wind hood
23 vertical axis
24 water coolers
25 intercooler
26 hydraulic oil cooler
27 transmission oil cooler
28 air conditioning coolers
29 separate vertical axes
30 drive shaft
31 belt drive
32 belt drive
33 belt drive
34 suction fan wheel
35 hollow profile
36 cleaning device
37 connecting pipe
38 side panel
39 air inlet openings

Claims (12)

1. Self-propelled forage harvester for agricultural crops,

• - Which has a chopping unit ( 3 ) in the area of the front wheels, to which an ejection chute ( 4 ) is arranged,
• - in which there is a driver's cabin ( 6 ) above the chopper unit ( 3 ) and in front of the chute ( 4 ),
• - Where in the area of the rear wheels ( 7 ) a drive motor ( 8 ) for driving the working elements including an adapter ( 1 ) and the travel drive is seen before,
• - With a the engine compartment ( 10 ) at least from behind, above and on both sides left and right enveloping cladding ( 11 ), which extends into the area of the rear wall ( 12 ) of the driver's cabin ( 6 ),
• with a rotating sieve device ( 17 ), to which a cooling unit ( 18 ) and a cooler fan ( 19 ) is assigned and which is optionally in operative connection with a fixed cleaning device ( 36 ),

characterized in that

• a) the part of the cladding ( 11 ) between the rear end of the chute ( 4 ) and the front end of the drive motor ( 8 ) as seen in the direction of travel as a downward, upward and left-hand and right-hand side to approximately air-impermeable, closed casing ( 13 ) is trained.
• b) there is at least one rotating sieve device ( 17 ) with cooling unit ( 18 ) and cooler fan ( 19 ) in the closed casing ( 13 ), with the axes of rotation of the rotating sieve device ( 17 ) and the cooler fan ( 19 ) being aligned transversely to the direction of travel are.
• c) seen in the direction of travel front end face ( 14 ) of the closed casing ( 13 ) is closed in the overhead area and that they un th over their entire width and in the direction of the discharge chute ( 4 ) and the chopper unit ( 3 ) pointing blow opening ( 15 ) has.
• d) the rear end face ( 16 ) of the closed casing ( 13 ) seen in the direction of travel is open.

2. Self-propelled forage harvester according to claim 1, characterized in that the rotating screen device ( 17 ), the cooling unit ( 18 ) and the cooling fan ( 19 ) on the right side of the closed jacket ( 13 ) seen in the direction of travel, approximately centrally between the rear End of the ejection shaft ( 4 ) and the front end of the drive motor ( 8 ) are arranged. 3. Self-propelled forage harvester according to claims 1 and 2, characterized in that the rotating sieve device ( 17 ) by means of a swivel frame ( 20 ) from the outside is placed on a cooling unit housing ( 21 ) which passes through the closed casing ( 13 ) and on that close on the opposite side of the wind hood ( 22 ) and the radiator fan ( 19 ). 4. Self-propelled forage harvester according to claims 1 to 3, characterized in that the swivel frame ( 20 ) on the cooling unit housing ( 21 ) about a laterally on the cooling unit housing ( 21 ) attached vertical axis ( 23 ) is arranged pivotable to the outside. 5. Self-propelled forage harvester according to claims 1 to 4, characterized in that the cooling unit ( 18 ) from the cooling unit housing ( 21 ), the water cooler ( 24 ), the charge air cooler ( 25 ), the hydraulic oil cooler ( 26 ), the transmission oil cooler ( 27 ) and the air conditioning cooler ( 28 ). 6. Self-propelled forage harvester according to claims 1 to 5, characterized in that in the cooling unit housing ( 21 ) the water cooler ( 24 ), the transmission oil cooler ( 27 ) and the charge air cooler ( 25 ) are arranged next to each other and fixed to the cooling unit housing ( 21 ) are connected and that the hydraulic oil cooler ( 26 ) which can be pivoted about a separate vertical axis ( 29 ) is also arranged therein. 7. Self-propelled forage harvester according to claims 1, 3, 4 and 5, characterized in that the climate cooler ( 28 ) with the swivel frame ( 20 ) is connected. 8. Self-propelled forage harvester according to claims 1 to 6, characterized in that between the drive motor ( 8 ) and the cooling unit housing ( 21 ) a transverse to the direction of drive shaft ( 30 ) is provided, which is by means of a belt drive ( 31 ) from the drive motor ( 8 ) is driven, from one end of which the rotating screening device ( 17 ) is driven with a belt drive ( 32 ) with a large transmission ratio and from the other end of which the cooler fan ( 19 ) is driven at a high speed by means of a further belt drive ( 33 ), and that with the drive shaft ( 30 ) a suction fan wheel ( 34 ) is rotatably connected, which is located in the upper region of a hollow profile ( 35 ) which is only open at the bottom. 9. Self-propelled forage harvester according to claims 1 and 8, characterized in that there is an airtight connection between the cleaning device ( 36 ) and the hollow profile ( 35 ) in the region of the suction fan wheel ( 34 ), which is designed as an elastic connecting tube ( 37 ). 10. Self-propelled forage harvester according to claims 1 to 3, characterized in that the over the closed casing ( 13 ) projecting rotating sieve device ( 17 ) is covered with a pivotable side panel ( 38 ) which from the area of the rear wall ( 12 ) Driver's cab ( 6 ) extends to the front end of the drive motor ( 8 ) seen in the direction of travel, which is closed at the top and has air inlet openings ( 39 ) on the other sides. 11. Self-propelled forage harvester according to claim 10, characterized in that the air inlet openings ( 39 ) in the front of the pivotable side panel ( 38 ) are made significantly larger than the rest.