NL1020858C2 - Harvester, especially for potatoes, has support arm for soil crest following device designed to allow crops to be carried by harvester when plough frame is in transport position - Google Patents

Abstract

The pivot point (12) for the soil crest following device support arm (11) is located in front of the plough (9) with respect to the travelling direction (5) of the harvester and this arm extends away from this pivot point in a direction substantially opposite to the travelling direction. When the plough frame (7) is swung from a ploughing position into a transport position, it is moved in the opposite direction to the travelling direction. The main frame (1) of the harvester is movable on wheels (2), e.g. using a tractor to tow it, and contains a pivotable plough frame provided with ploughs slanting in the travelling direction and with soil crest following devices (13) located in front of the ploughs. The soil crest following devices are mounted on the end of a support arm pivotally connected to the plough frame. When the plough frame is raised in the transport position, the support arm pivots under its own weight into a position where the soil crest following devices engage with the ploughs.

Description

NL4802 Vo / Vo

Device for harvesting bulbs

The invention relates to a device for grubbing bulbous plants, such as, for example, potatoes, with a main frame supported by wheels which during movement is movable in a direction of movement, in which main frame is pivotably mounted a grub frame which in the first place is substantially carries harvesters extending obliquely downwards in the direction of movement, and. secondly, counting in the direction of movement, ground ridge followers 10 located in front of the harvesting shears and mounted on the end of a support arm pivotally connected to the harvesting frame in a pivot point, said support arm also being in a grub position of the device in addition to the pivot point via a stop engaged on the lifting frame to determine its position, and of the lifting shears carried with it, relative to the ground, while the carrying arm in a transport position of the device in which the lifting frame is pivoted to a lifted position, under the influence of gravity about its pivot point is pivoted to a position in which the ground-back followers engage the harvesters.

In a known device of the type mentioned in the preamble, the pivot point of the carrying arm is, counted in the direction of movement, behind the harvesting shears and the carrying arm (or carrying arms) extends substantially in the forward direction. In this case, so-called pushed soil ridge followers are involved (these are usually diabolo-shaped members which are essentially in the form of the soil ridges in which the bulb crops to be harvested are located). The stop between the carrying arm and the lifting frame (which in fact defines an extreme pivotal position of the carrying arm relative to the lifting frame) determines the position of the lifting scissors with respect to the ground in the lifting position of the device, in which the ground-back followers on the ground backs rest 2 and the lifting frame rests on the support arm. When the grubbing frame is pivoted relative to the main frame to the transport position after grubbing, the carrying arm will pivot relative to the pivoting frame about its pivot point until the ground back followers will engage on the grubbing shears. Bulbous crops located in the establishment beyond the harvesting scissors are locked in this way.

In order to improve the operation of such a device, it has already been proposed to arrange the carrying arm in the lifting frame in such a way that, starting from the pivot point, it extends opposite to the direction of movement (backwards). The pivot point is then in front of the harvesters. In this case, so-called, pulled ground back followers are involved which can perform their operation with less effort (power of the device or a tractor moving it). A problem that occurs here is, however, that when the lifting frame is moved from the lifting position to the transport position relative to the main frame, the carrying arm will pivot, but (due to the positioning of its pivot point in front of the lifting scissors) beyond the lifting scissors will move without cooperating with it for confining the harvested bulb crops.

It is an object of the present invention to provide a solution to this problem.

To this end, the device according to the present invention is characterized in that, in the direction of movement, the pivot point of the carrying arm is located in front of the lifting scissors and the carrying arm extends substantially opposite to the direction of movement, starting from its pivot point, the lifting frame is pivoted from the lifting position to the transport position, being moved in the opposite direction to the direction of movement.

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This backward displacement of the pivot point ensures that the ground-back followers will come into contact with the lifting scissors during a pivoting of the carrying arm, so that the harvested bulb crops can be locked in the device when it is in the transport position .

In a favorable embodiment of the invention, it holds that the pivot point is located on a first end of a rocker lever which is pivotally connected to the lifting frame and whose second end is movably connected to the main frame via a connecting rod such that when the lifting frame comes from the lifting position is pivoted to the transport position, the rocker lever is pivoted in such a way that the pivot point of the carrying arm located on the rocker lever is moved in the opposite direction to the direction of movement.

Moving the lifting frame from the lifting position to the transport position leads via the coupling rod to a rotation of the rocker lever such that the pivot point located thereon is moved backwards (of course, a vertically directed movement component of the pivot point also generally occurs at the same time, but this is of little or no importance in this context). As a result, the carrying arm with the ground back followers mounted thereon will also be moved backwards (closer to the harvesting scissors).

In another embodiment, it further holds that the length of the coupling rod is adjustable.

Such adjustability provides the possibility of varying the location of the ground back followers relative to the harvesting shears in the harvesting position of the device. This is advantageous, for example, to take into account different circumstances during harvesting, such as, for example, soil condition (soil type, such as sand, clay 1 nonasr 4 or the like; bearing capacity of the soil) and type of bulb crop to be harvested.

Structurally, such an embodiment of the device according to the invention can be realized by the fact that the coupling rod is designed as a clamping lock.

However, a comparable result can also be achieved in other ways. Without wishing to provide an exhaustive list, it is mentioned as a possible embodiment that the connection between the pivot point and the support arm is adjustable (for example, because the support arm can be fixed in different positions relative to the pivot point).

It is also possible that the support arm is adjustable in length.

The invention is explained in more detail below with reference to the drawing.

Figure 1 schematically shows a known device in the harvesting position; Figure 2 shows the same known device in the transport position; figure 3 shows the problem underlying the present invention on the basis of another device; Fig. 4 schematically shows a device according to the invention in the harvesting position; figure 5 shows the same device according to the invention in the transport position, and figure 6 shows a perspective view of a part of a device according to the invention.

Referring to Figure 1, a side view is schematically shown of a known device for grubbing bulbs. A main frame 1 rests with wheels 2 on the ground 3 and can be moved via a coupling 4 by a tractor (not shown) in a propelling direction 1020858 5. At the location of a pivot point 6 there is a lifting frame 7 in the main frame 1 bearings. The pivoting movement of the lifting frame 7 relative to the main frame 1 is controlled by drive members 8 (e.g. cylinder-5 piston assemblies).

The lifting frame carries lifting scissors 9 which extend obliquely downwards in the direction of movement 5. In the rearward direction, discharge members 10 connect in a known manner (for example discharge belts).

A carrying arm 11 (of which more of these can also be located next to each other) is coupled to the harvesting frame 7 at a pivot point 12. This support arm, which in this case extends forward, carries ground ridge followers 13 at its free end to engage a bulbous soil ridge 14. The support arm 11 and the harvesting frame 7 have cooperating stops 15 and 16.

In the digging position shown in Fig. 1, the ground back followers 13 rest on the ground ridges 14, the harvest frame 7 rests with its stop 16 on the stop 15 of the carrying arm 11 and the position of the digging shears 9 relative to the ground 3 is thereby determined.

After harvesting, the harvesting frame 7 is lifted by the drive members 8 around its pivot point 6 to the transport position shown in Figure 2. In this case, the carrying arm 11 with the ground-back followers 13 (by pivoting about its pivot point 12) drops onto the harvesting shears 9.

Figure 3 shows another known harvesting device. In contrast to the known device described above, the carrying arm 11 now extends rearwardly from its pivot point 12. As a result, ground back followers 13 are drawn (as opposed to pushed ground back followers in the known device according to Figs. 1 and 2). Due to the resulting position of the pivot point 12, namely before the lifting scissors 9, a pivoting movement of the carrying arm 11 in the transport position will not, however, lead to a cooperation between the ground-back followers 13 and the lifting scissors 9 (this is indicated in Figure 3 by the dotted positions of the carrying arm 11 'and ground-back followers 13', wherein it should be realized that in reality the lifting frame 7 has also been moved upwards, for example as shown in Figure 2).

Figure 4 shows a device according to the invention schematically and in side view. Insofar as the basic construction is the same as that of the previously known devices, a description will be omitted. The emphasis will be on the differences.

Clearly visible is a rocker lever 17 which is connected to the lifting frame 7 at a pivot point 18. A first end 19 of the rocker lever 17 pivotally supports the support arm 11 with ground back followers 13, while the opposite second end 20 is movably connected to the main frame 1 via a coupling rod 21. are pivot point 12 located on the rocker lever 17 backwards.

When now the lifting frame 7, similar to Figure 5, is lifted to the transport position, the coupling rod 21 causes a rotation of the rocker lever 17 about its pivot point 18 such that the first end 19 thereof is rearward (in Figures 4 and 5 to the left) ) moves. As a result, the carrying arm 11 with ground-back followers 13 is also moved backwards, so that the ground-back followers 13 will engage on the lifting scissors 9 (downwardly pivoting the carrying arm 11) (Figure 5).

When the length of the coupling rod 21 is adjustable (for example because it is designed as a clamping lock), the horizontal distance between the harvesting scissors 9 and the ground-back followers 13 can be adjusted. This could also be achieved by an adjustable connection between the rocker lever 17 and the support arm 11 (for example when the support arm 11 can be fixed relative to its pivot point 12 in different positions) or when the support arm 11 itself is adjustable in length is.

Finally, reference is made to figure 6, in which a device according to the invention is shown partly and in perspective. Visible is the main frame 1 with coupling 4, harvesting frame 7, harvesting shears, 9, and ground back followers 13. The rocker levers 17 are now each time constructed from two staggered halves 17 'and 17 * * which are mounted on a shaft 22. The drive members 8 ensure the movement of the lifting frame 7, and the coupling rods 21 then rotate the rocker levers 17, so that the carrying arms 11 are displaced.

The invention is not limited to the embodiments described above, which can be varied in many ways within the scope of the invention as defined by the claims.

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Claims (8)

1. Apparatus for harvesting bulbous plants, such as, for example, potatoes, with a main frame supported by wheels which is movable during the harvesting in a direction of movement, in which main frame pivotable, a harvesting frame is mounted which primarily occupies the direction of movement carries obliquely downward diggers, and that, secondly, counts in the direction of movement, in front of the diggers, ground-back followers arranged on the end of a support arm pivotally connected to the digging frame, which support arm, in a grubbing position of the device, not only via the pivot point but also engages via a stop on the grubbing frame to determine its position, and the grubbing shears carried therewith, relative to the ground, while the carrying arm in a transverse position of the device in which the lifting frame is pivoted to a lifted position, under the influence of the gravity about its pivot point is pivoted to a position in which the ground-back followers engage on the lifting scissors, characterized in that the pivot point of the carrying arm, in the direction of movement, is located in front of the lifting scissors and the carrying arm is starting from its pivoting point in extends substantially opposite to the direction of movement, wherein the pivot point, when the lifting frame is pivoted from the lifting position to the transport position, is moved opposite to the direction of movement. 2. Device as claimed in claim 1, wherein the pivot point is located on a first end of a garden lever which is pivotally connected to the lifting frame and of which a second end is movably connected to the main frame via a connecting rod such that when the lifting frame comes from the lifting position is pivoted to the transport position 1020858 the rocker lever is pivoted in such a way that the pivot point of the carrying arm located on the rocker lever is moved in the opposite direction to the direction of movement. 3. Device as claimed in claim 2, wherein the length of the coupling rod is adjustable. Device as claimed in claim 3, wherein the coupling rod is designed as a clamping lock. Device as claimed in any of the claims 2-4, wherein the connection between the pivot point and the support arm 10 is adjustable. Device as claimed in claim 5, wherein the carrying arm can be fixed in different positions relative to the pivot point. 7. Device as claimed in any of the claims 2-6, 15, wherein the carrying arm is adjustable in length. 1 0 2 Q 8 F, ft