NO834290L - DEVICE FOR STRAWBER TRANSPORT IN CROPS. - Google Patents

Description

The present invention relates to a device for a straw conveyor in combine harvesters, comprising an endless conveyor belt for transporting straw from a cutting device in the direction of a threshing cylinder, an auxiliary conveyor being arranged above the conveyor belt.

It is known to use endless conveyor belts to bring the straw from the cutting device to a combine harvester in the direction of, possibly all the way to, a threshing drum. As a rule, conveyor belts with transverse ribs are used, the straw being driven by the ribs on the lower, straight part of the belt, by a board being arranged at a certain distance below this part of the belt, to support the straw while it is carried along by the belt. The strip is permanently mounted, and this means that straw can accumulate in front of the inlet end of the strip, behind the cutting device, especially when the straw is short, whereby the straw that has been cut does not reach the strip. The position of the belt in relation to the cutting device is optimal only for a certain length of straw. Because such belts with transverse ribs are used together with transverse screw conveyors which bring the straw from the cutting device's outer end towards the center of the combine, it is not possible to arrange the inlet end of the belt right up to the cutting device.

It is also known to use conveyor belts that transport the straw lying on its upper side. Whether the belt has transverse ribs or not, the straw will tend to slide sideways when the combine is working on sloping ground, so that the straw is fed to only one side of a threshing drum. This leads to the accumulation of straw and possible downtime.

For the known combination of conveyor belts and transverse transport screws, it is known to use cutters adapted to the length of the straw, so that the straw is cut at a suitable distance from the belt in relation to the length of the straw. This involves changing coulters for varying straw lengths, which is time-consuming work, which often leads to the work being omitted, so that the combine works with coulters that are not optimal for the straw length. Another disadvantage is of course that the acquisition of several sets of shears means increasing investment costs.

When conveyor belts are used which extend mainly over the entire width of the cutting device, the inlet end of the belt may be so close to the cutting device that the straw will fall onto the belt regardless of the length of the straw. One problem is, as mentioned, that the straw can slide sideways on sloping terrain. In addition, the transport of the straw can be inefficient, especially if the belt runs at an angle upwards towards a threshing cylinder. This is of course exacerbated when the combine works on a downhill slope.

A device as indicated at the outset is known from Norwegian design document no. 148941. The auxiliary conveyor is here a rotor placed at the outlet end of the conveyor belt, and it only works to bring the straw over to one threshing cylinder.

The purpose of the present invention is to arrive at

a device that enables efficient transport of the straw, regardless of . straw length, and regardless of whether the combine works with a sideways slope or downhill.

According to the invention, this is achieved with a device as stated in the following patent claim 1.

The conveyor belt, which is operated continuously during threshing,

with this device will transport the straw very efficiently, regardless of the length of the straw, as the auxiliary conveyor can be placed at a distance from the cutting device which is adapted to the length of the straw, and roughly corresponds to this length. Thereby, the straw that has been cut, and which falls backwards towards the belt, will immediately enter between the belt and the auxiliary conveyor, and the straw will be effectively driven backwards, possibly flung, so that it falls to the back of the belt or behind it. The straw is almost instantaneously brought up to at least the belt's speed. With varying straw length, the auxiliary conveyor or its inlet end can be moved along the upper side of the belt, so that the distance to the cutting device is

the time is optimal.

It is not assumed that the movement or the change in length of the auxiliary conveyor should take place with the help of mechanical and/or hydraulic aids, as constant adjustments are not necessary in practice. In relation to e.g. the work of changing cutters, it is a simple task to move or change the length of the auxiliary conveyor, also manually. The: can e.g.

have an axle or axle studs that are mounted in removable bearing housings, such as e.g. can be clamped anywhere along rails. Alternatively, the auxiliary conveyor can be rotatable on one axle or two axle studs, as e.g. dasse can be moved in tracks along the conveyor belt. Naturally, means can be arranged for more or less automatic displacement or length change, e.g. hydraulic cylinders connected to a bearing housing or an axle for the auxiliary conveyor. This can also be mounted on a slide or frame that can be moved, manually, mechanically or hydraulically.

It is also not assumed that the auxiliary conveyor is driven in rotation directly, as it is in principle sufficient that it is driven in and through contact with the belt, possibly via intermediate straw. However, it is possible to arrange direct operation of the auxiliary conveyor. As it must be able to be moved or changed in length along the upper side of the belt, it is however an advantage to avoid normal mechanical operation of the auxiliary conveyor if this means that some of the drive mechanism must be moved when the auxiliary conveyor is to be moved or changed in length.

A solution which means that the drive mechanism itself does not need to be moved consists in the auxiliary conveyor comprising an endless belt that runs over at least three rollers^ of which one roller can be moved along the conveyor belt, as the location of another roller can be changed to hold it endless belts tight, but the third roller is connected to a drive mechanism and is stationary stored in the combine.

Another solution consists in the auxiliary conveyor comprising a rotor which is connected to at least one endless drive belt or chain, which has at least one straight section along the upper side of the conveyor belt and runs over stationary stored rollers, the rotor being in drive connection with the at least one such straight part, and is stored so that it can be moved parallel along the conveyor belt.

The auxiliary conveyor, whether it comprises a rotor or an endless belt, can be equipped with transverse ribs or brushes. This will, when the rotor itself or the endless belt passes the conveyor belt at a certain distance, effectively contribute to guiding the straw along the conveyor belt. Ribs or brushes on the auxiliary conveyor can optionally be combined with ribs on the conveyor belt. This is particularly advantageous when the stair climber has brushes, as these will bend when they hit ribs on the conveyor belt, so that wear and damage is avoided.

The most important thing about the invention, however, is that the auxiliary conveyor can be adjusted according to the straw length. The auxiliary conveyor itself, when this is a rotor, or the inlet end of the auxiliary conveyor, when it comprises an endless belt, can be moved along the upper side of the conveyor belt, so that the rotor or the inlet end, respectively, is at such a distance from the cutting device that the straw falls backwards and is immediately fed in in the space between the conveyor belt and the auxiliary conveyor, in order to be driven efficiently backwards towards a threshing drum.

The invention will be explained in more detail in the following, with the help of design examples shown in the attached drawings.

In the drawings, mainly only the parts of a combine harvester which are connected to the invention are shown. Fig. 1 thus shows the front end of a combine, equipped with a first embodiment of a device according to the invention. Fig. 2 likewise shows the front end of a combine, equipped with another embodiment of a device according to the invention. Fig. 1 shows a combine harvester comprising an endless conveyor belt 1, designed to carry straw that is cut by a cutting device 2 backwards to a threshing cylinder 4. Above the conveyor belt is arranged an auxiliary conveyor 3, in the form of an endless belt 6, which has essentially the same width as the conveyor belt 1.

The endless belt 6 runs around three rollers, 7, 8 and 9, and can be equipped with transverse brushes 11, which brush along the conveyor belt 1 during operation. To enable adaptation of the auxiliary conveyor 3 to the length of the straw falling backwards from the cutting apparatus 2, the one roller 7 can be moved along the conveyor belt 1, as indicated by the arrow A-A. This can be done by e.g. the roll 7 is stored in (not shown) movable storage housings, or by a shaft of the roll projecting into (not shown) slots located along the conveyor belt 1. To maintain suitable tension for the endless belt 6, another roll 8 is arranged to be able to be moved parallel, as indicated by the arrow B-B. The third roller 9 is stationary stored in the combine harvester, and can suitably be the driving roller for the auxiliary conveyor, in that it is connected to a (not shown) drive mechanism. This entails the advantage that the drive mechanism is not affected by movements of the rollers 7 and 8. It will be understood that the roller 8 can also be stored in movable bearing housings or have an axle that can be moved in slots. The shown direction of movement of the roller 8 is perpendicular to the conveyor belt 1, but this is not a condition.

When cutting the straw, it will fall towards the conveyor belt

1, and if the end of the straw falls down immediately in front of the roller 7, i.e. to the left of this in the drawing, the straw will be gripped by the brushes 11 on the auxiliary conveyor 3 and efficiently driven backwards between the auxiliary conveyor and the conveyor belt 1. The straw then passes a stone collector 14 and is led to the threshing cylinder 4, behind the threshing cylinder in a conventional manner

a beater 6 can be mounted. Under the threshing cylinder 4 is a H.•,< concave element 16. There can also be mounted knives 15

at intervals in the transverse direction of the combine. Up

from the concave element 16, a grid 17 can also be mounted. Optionally, another threshing cylinder (not shown) can be located behind the beater 6.

If the straw is too short for its. upper end falls down immediately in front of the roller 7, there is a risk that the straw will pile up before the straw is grasped by the brushes 11. To avoid this, the invention enables the roller 7 to be moved backwards, to a suitable distance from the cutting device in relation to the length of the straw.

If the straw is so long that it does not fall down in front of the roller

7, the straw will hit the diagonally downward running part of the endless belt 6, and will also then be able to pile up in front of the auxiliary conveyor 3.. A large quantity of straw will be able to be driven simultaneously between the conveyor belt 1 and the auxiliary conveyor 3, which may cause operational disruption. This is avoided by moving the roller 7 to the right in fig. 1, so that the long straw falls with its upper end immediately in front of the roller 7.

The auxiliary conveyor, 3 causes an efficient transport of the straw

in the direction of the threshing cylinder 4, and prevents the straw from sliding sideways on the conveyor belt 1 in sloping terrain. In addition, efficient straw transport is also achieved when the combine works on a slope so that the transport path is steep.

Fig. 2 shows an embodiment in which an auxiliary conveyor 3 is arranged above a conveyor belt 1 in the form of a rotor 5, equipped with brushes 11. The rotor 5 with its shaft 18 is stored in a slot 19, which is parallel to the conveyor belt 1. The other end of the shaft 18 is stored in a corresponding slot. The rotor 5 is driven by an endless drive belt or chain 10, which runs around two rollers 12 and 20 which are stationary stored, one of these rollers being connected to a (not shown) drive mechanism. In the example, the roller 12 is also equipped with brushes 11. The drive belt or chain is either located at the end of the rollers 12 and 20 and the rotor 5, or has a small width, so that it does not prevent the straw from falling towards the conveyor belt 1 after have been cut by the cutting device 2. In the example, the conveyor belt 1 is equipped with transverse ribs 21. There is also shown a threshing drum 4, a grid 17, a concave element 16, as well as a drum 22 and another grid 23, which are conventional nal elements with no particular connection to the invention.

A rotor 13 equipped with brushes 24 is also mounted above the roller 12. The rotor 13 has the task of bringing the straw up to the threshing cylinder 4, in cooperation with the roller 12.

It will be understood that the roller 5 can be moved along the conveyor belt

1, depending on the straw length, analogously to the roll 7 shown in fig. 1, and with the same effect, namely that the position of the roller can be adjusted to the optimum in relation to the straw length with regard to efficient transport towards the threshing cylinder 4. If a drive chain 10 is used which interacts with a (not shown) toothed wheel on the rotor 5, on both sides of this, moving the rotor 5 can only take place after the engagement with the chain 10 has been released at least on one side of the rotor 5, e.g. by slackening the chain (e.g. by a slight displacement of the roller 20 or the roller 12. If the rotor 5 only engages with the chain 10

on the one hand, movement of the rotor 5 can also take place during operation. Thus, the shaft 18 of the rotor 5 can be connected, e.g. hydraulic cylinders for parallel displacement, possibly operated from the combine driver's seat. However, it is not particularly required that the rotor 5 can be moved without manual work, as there is usually no need for constant adjustments during use. The shaft 18 can therefore preferably be stored so that it must be manually loosened and moved manually, and then manually clamped in the desired location.

Claims (10)

1. Device for a straw conveyor in combine harvesters, comprising an endless conveyor belt (1) for transporting straw from a cutting device (2) in the direction of a threshing cylinder (4), with an auxiliary conveyor (3) arranged above the belt, characterized in that in the smallest inlet end of the auxiliary conveyor (3) is arranged to be placed in several positions along the longitudinal direction of the belt (1), to be placed at a distance from the cutting device (2) which is adapted to the length of the straw. 2. Device as stated in claim 1, characterized in that the auxiliary conveyor (3) is a rotor (5) which projects in the transverse direction of the conveyor belt (1) and can be moved along this. 3. Device as stated in claim 1, characterized in that the auxiliary conveyor (3) comprises an endless belt (6) which runs over at least three rollers (7, 8, 9), of which one roller (7) can be moved along the conveyor belt (1), the location of another roller (8) can be adjusted to keep the endless belt taut. 4. Device as stated in claims 1-5, characterized in that the auxiliary conveyor (3) is connected to a drive device, to be driven at least at the same speed as the conveyor belt (1). 5. Device as stated in claim 2, characterized in that the auxiliary conveyor (3) comprises a rotor (5) which is connected to at least one endless drive belt or chain (10) which has at least a straight section along the upper side of the conveyor belt (1), the rotor being in drive connection with at least one such straight section of the drive belt or chain and is stored so that it can be moved parallel along the conveyor belt. 6. Device as stated in claims 1-5, characterized in that the auxiliary conveyor is equipped with transverse ribs that project towards the conveyor belt (1) in the part facing it during operation. 7. Device as specified in claims 1-5, characterized in that the auxiliary conveyor is equipped with transverse brushes (11). which protrudes towards the conveyor belt in the part facing it during operation. 8. Device as stated in claim 7, characterized in that the brushes (11) are made of plastic, e.g. polyamide, and extends mainly across the entire width of the auxiliary conveyor (3). 9. Device as stated in claim 8, characterized in that the auxiliary conveyor (3) is mounted in such a way in relation to the conveyor belt (1) that the ends of the brushes (11) pass close to the upper side of the conveyor belt, possibly in contact with it. 10. Device as stated in claim 5, characterized in that the endless drive belt or chain (10) close to the outlet end of the conveyor belt (1) runs around another rotor (12) which is stationary stored on the combine and forms an active part of the auxiliary carrier.